.

Cecilia Noguez

Curriculum Vitae

9 de marzo de 2018 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ ii

Contents

DATOS GENERALES 1

FORMACION´ ACADEMICA´ 1

EXPERIENCIA PROFESIONAL 1 Campo de especialidad 1 Puestos academicos´ en investigacion´ 2 Puestos academicos´ en docencia 2

MEMBRESIAS EN SOCIEDADES CIENT´IFICAS 2

PARTICIPACION´ EN ORGANOS´ COLEGIADOS 3 Organos´ colegiados en la UNAM 3 Organos´ colegiados nacionales e internacionales 3 Organizacion´ de reuniones cient´ı€cas nacionales e internacionales 4 Agencias de apoyo a la investigacion´ cient´ı€ca como arbitro´ regular 4

PARTICIPACION´ EDITORIAL 4 Trabajo editorial 4 Arbitro regular de las siguientes revistas internacionales 5

PREMIOS, RECONOCIMIENTOS Y DISTINCIONES 5 Premios y distinciones academicas´ 5 Otros reconocimientos academicos´ 6 Sistema Nacional de Investigadores (SNI) y Est´ımulos academicos´ UNAM (PRIDE) 7 Becas 7

CONFERENCIAS, SEMINARIOS Y COLOQUIOS (315) 7 Por invitacion´ (178) 7 – Platicas´ invitadas internacionales 7 – Platicas´ invitadas nacionales 12 – Platicas´ de divulgacion´ 15 Presentaciones regulares en congresos (137) 16

PROYECTOS FINANCIADOS 16 Responsable (16) 16 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ iii Corresponsable (4) 17 Participante (12) 17

FORMACION´ DE RECURSOS HUMANOS 17 Cursos Docentes (54) 17 Tesis y posdoctorantes 18 – Finalizados (23) 19 – En proceso (3) 22 Participacion´ en examenes´ de grado como sinodal (38) 22 Participacion´ en examenes´ generales y predoctorales (6) 24

PRODUCCION´ CIENT´IFICA (96) 24 Tabla de publicaciones 24 Portadas 25 Lista de publicaciones 26 – Revistas indizadas JCR con estricto arbitraje 26 – Art´ıculos en revistas internacionales con estricto refereo no JCR 31 – Art´ıculos en revistas de circulacion´ local con arbitraje no JCR 32 – Cap´ıtulos en libros 32 – Memorias en extenso con arbitraje de circulacion´ internacional 33 – Memorias en extenso en espanol˜ 34 – Art´ıculos de divulgacion´ 34

CITAS (3545) 35 Tabla informativa de citas ISI (WoS) & SCOPUS (3545) 35 Lista de citas sin autocitas A+B (=3328) 36

LISTA DE TRABAJOS EN CONGRESOS CON PARTICIPACION´ REGULAR 192 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 1 Ana Cecilia Noguez Garrido

DATOS GENERALES

LABORALES Nombramiento: Investigadora Titular C, Tiempo Completo, De€nitiva Sistema Nacional de Investigadores: Investigadora Nacional Nivel III Programa de desempeno˜ academico:´ PRIDE Nivel D Domicilio Profesional: Instituto de F´ısica, UNAM, Circuito de la Investigacion´ Cient´ı€ca s/n, Cd. Uni- versitaria, Cd. Mx. 04510, Mexico´ Telefono:´ ++52–55–5622–5106 E-mail: cecilia@€sica.unam.mx Google Scholar web page: https://scholar.google.com.mx/citations?hl=en&user= 9JVn-G0AAAAJ&view_op=list_works

FORMACION´ ACADEMICA´

1995–1996 POSDOCTORADO Posdoctoral Research Assistant Institucion:´ Ohio University Tema de investigacion:´ Calculos´ ab initio de propiedades opticas´ de clusters y super€cies

1993–1995 DOCTORADO en Ciencias (F´ısica) Institucion:´ Facultad de Ciencias, UNAM Fecha de examen: 13 de julio de 1995 T´ıtulo de tesis: Propiedades opticas´ de sistemas inhomogeneos´ de baja dimensionalidad

1990–1993 MAESTR´IA en Ciencias (F´ısica) Institucion:´ Facultad de Ciencias, UNAM Examen: General de Conocimientos Fecha de examen: 22 de enero de 1993

1985–1990 LICENCIATURAF ´ısica Institucion:´ Facultad de Ciencia, UNAM Fecha de examen: 30 de mayo de 1990 T´ıtulo de tesis: La respuesta dielectrica´ de medios compuestos: un nuevo enfoque

EXPERIENCIA PROFESIONAL

Campo de especialidad

Disciplina:F ´ısica teorica´ y computacional Subdisciplina: Estado solido,´ Nanociencia Especialidad: Propiedades atomicas,´ electronicas´ y opticas´ de la materia Investigacion´ en: Plasmonica,´ Electrodinamica´ en Medios Continuos, Quiralidad y Actividad Optica,´ Fuerzas Dispersivas, Adsorbcion´ en Super€cies, Desarrollo de Computo´ Cient´ı€co 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 2

Puestos academicos´ en investigacion´

08/2010 – 07/2011 PROFESORA INVITADA Departamento de Qu´ımica, Northwestern University (NU), Financiado por NU y UNAM- DGAPA

08/2005 – vigente INVESTIGADORA TITULAR C de tiempo completo de€nitiva Instituto de F´ısica, UNAM, Concurso de oposicion´ abierto

06/2003 – 08/2005 INVESTIGADORA TITULAR B de tiempo completo de€nitiva Instituto de F´ısica, UNAM, Concurso de oposicion´ cerrado

08/2000 – 12/2000 PROFESORA INVITADA Departamento de F´ısica y Astronom´ıa, Ohio University (OU), Financiado por AMC y OU

01/2000 – vigente DEFINITIVIDAD Investigadora Titular de tiempo completo Instituto de F´ısica, UNAM, Concurso de oposicion´ cerrado

11/1999 – 06/2003 INVESTIGADORA TITULAR A de tiempo completo Instituto de F´ısica, UNAM , Concurso de oposicion´ abierto

10/1995 – 11/1999 INVESTIGADORA ASOCIADA C de tiempo completo Instituto de F´ısica, UNAM, Contrato por obra determinada

Puestos academicos´ en docencia

2002 – vigente Tutora Doctorado, Posgrado en Ciencias F´ısicas, UNAM 1996 – vigente Tutora Maestr´ıa, Posgrado en Ciencias F´ısicas, UNAM 1991 –vigente Profesora de Asignatura, Facultad de Ciencias, UNAM 01/2009 – 06/2009 Profesora de Asignatura, Univ. Iberoamericana 2000 – 2009 Tutora Doctorado, Posgrado en Ciencias F´ısicas y en Materiales, BUAP 11/1988 – 05/1992 Ayudante de Profesor de Asignatura, Facultad de Ciencias, UNAM

MEMBRESIAS EN SOCIEDADES CIENT´IFICAS

2005 American Chemical Society (ACS) 1998 Academia Mexicana de Ciencias (AMC) 1998 Sociedad Mexicana de Materiales 1993 American Physical Society (APS) 1990 Materials Research Society (MRS) 1988 Sociedad Mexicana de F´ısica (SMF) 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 3

PARTICIPACION´ EN ORGANOS´ COLEGIADOS

Organos´ colegiados en la UNAM

04/2016 – vigente Miembro del Consejo Asesor de la DGTIC 08/2015 – 08/2016 Representante titular del personal academico´ del IFUNAM ante el Consejo Tecnico´ de la In- vestigacion´ Cient´ı€ca 08/2015 – 04/2016 Miembro de la CAAA del Consejo Tecnico´ de la Investigacion´ Cient´ı€ca 06/2012 – 07/2015 Representante suplente del personal academico´ del IFUNAM ante el Consejo Tecnico´ de la Investigacion´ Cient´ı€ca 08/2012 – 06/2015 Miembro del Consejo Asesor de Computo´ IFUNAM 06/2011 – 06/2013 Miembro de la comision´ evaluadora del PRIDE de la DGTIC 06/2009 – 05/2011 Miembro de la comision´ evaluadora del PRIDE de la DGSCA 04/2006 – 05/2010 Coordinadora del paquete de materias de Estado Solido,´ Materia Condensada y Nanociencias, Posgrado en Ciencias F´ısicas 2003 –2010 Organizacion´ de la Red de Grupos de Investigacion´ en Nanociencia, REGINA–UNAM 2005 Participacion´ en el Diseno˜ Curricular y Determinacion´ de Contenidos para la Universidad de la Cienega´ del Estado de Michoacan´ de Ocampo: carrera de Nanotecnolog´ıa, colaboracion´ con el Centro de Estudios sobre la Universidad, UNAM 2003 – 2010 Miembro de la comision´ de becas del Instituto de F´ısica, UNAM 06/2001 – 05/2002 Representante del Departamento de Estado Solido´ ante el Consejo Interno del IFUNAM 06/2000 – 05/2001 Representante suplente del Departamento de Estado Solido´ ante el Consejo Interno del IFU- NAM

Organos´ colegiados nacionales e internacionales

01/2017 – vigente Miembro del Consejo Consultivo de Ciencias (CCC) de la Presidencia de la Republica´ 01/2016 – vigente Comision´ dictaminadora externa del Instituto Nacional en Astrof´ısica, Optica´ y Electronica´ (INAOE) 11/2014 – vigente Comision´ dictaminadora externa del Centro de Investigaciones en Optica´ A.C. (CIO) 10/2013 – vigente Miembro del Molecular Foundry Proposal Study Panel at Lawrence Berkeley National Laboratory 04/2016 Miembro del comite´ de evaluacion´ de Laboratorios Nacionales del CONACyT 02/2016 Miembro del comite´ de evaluacion´ de Laboratorios Nacionales del CONACyT 03-05/2015 Miembro del comite´ de evaluacion´ de Laboratorios Nacionales del CONACyT 05/2014 Miembro del comite´ de evaluacion´ de Laboratorios Nacionales del CONACyT 10/2013 Miembro del comite´ de evaluacion´ y segumiento de Laboratorios Nacionales del CONACyT, 06/2012 – 06/2014 Comision´ de premios de la Academia Mexicana de Ciencias 11/2009 – 06/2016 Miembro del Consejo Tecnico´ Academico´ de la Red Tematica´ de Nanociencias y Nanotecno- log´ıa, CONACyT 09/2011 – 11/2012 Presidenta del comite´ de evaluacion´ de Laboratorios Nacionales del CONACyT 2008 – 2012 Miembro del Comite´ Cient´ı€co del ICPCNanoNet Steering Group 10/2008 – 10/2010 Tesorera de la Division´ de Nanociencias y Nanotecnolog´ıa (DINANO) de la Sociedad Mexicana de F´ısica 2005 – 2016 Miembro del Scienti€c Advisory Board de Nanopolis 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 4

Organizacion´ de reuniones cient´ı€cas nacionales e internacionales

2018 Chair del International Materials Research Congress XVII 2016 Symposium Hybrid and Bio-Inspired Plasmonic Materials en el XXV IMRC, Cancun Mexico´ 2015 Symposium Frontiers in Plasmonic Materials en el XXIV IMRC, Cancun Mexico´ 2015 Comite´ tecnico´ del Programa Cient´ı€co del 11th International Symposium on Optics of Surfaces and Inter- faces (OSI-X 2013), Austin, Texas 2013 Miembro del comite´ cient´ı€co del 10th International Symposium on Optics of Surfaces and Interfaces (OSI-X 2013), en Chemnitz, Germany 2011 Presidenta del comite´ organizador del 9th International Symposium on Optics of Surfaces and Interfaces (OSI-IX 2011), Akumal Mexico´ del 18 al 23 de Septiembre 2010 Vicepresidenta del comite´ organizador del 15th International Symposium on Small Particles and Inorganic Clusters (ISSPIC-XV 2010) 2006 Miembro del Comite´ Cient´ı€co de la reunion´ Ciencia Mujer 2006 2006 Organizadora del Simposio homenaje a Prof. Sergio E. Ulloa por su ingreso como miembro correspondiente a la Academia Mexicana de Ciencias 2002 Organizadora del Simposio en honor a Ruben´ G. Barrera Instituto de F´ısica, UNAM 2001 Organizadora del taller Workshop on parallel programing using MPI Message-Passing Library, 29 de mayo al 5 de junio, IFUNAM 1998 Co-organizadora del simposio Theory and Computer Simulation of Materials - Electronic Structure and Optical Properties, dentro del congreso International Materials Research Congress (IMRC), Cancun´ Mexico´ 1998 Co-organizadora del “Taller de propiedades mecanicas,´ electricas´ y opticas”,´ dictado por el Dr. James Berryman del Lawrence Livermore National Laboratory. Instituto de F´ısica, UNAM enero. 96/97 Organizadora del Seminario Semanal del Departamento de Estado Solido´ del IFUNAM

Agencias de apoyo a la investigacion´ cient´ı€ca como arbitro´ regular

a partir del ano˜ en que se indica

2011 FONCyT, Argentina 2010 National Science Foundation, USA 2008Universidad Nacional de Colombia 2005 The Netherlands Foundation for Fundamental Research on Matter 2003 Universidad Autonoma´ de Puebla 2003 Sociedad Mexicana de F´ısica 2002 Proyectos PAPIIT DGAPA, UNAM 1998 Proyectos de Ciencia Basica,´ CONACyT

PARTICIPACION´ EDITORIAL

Trabajo editorial

01/2018 – vigente Editora asociada de la revista Optical Materials (Elsevier) 08/2014 – vigente Editora asociada de la revista Journal of Nanoparticle Research (Springer-Nature) 06/2012 – vigente Editora de la revista Ciencia de la Academia Mexicana de Ciencias 2016 Editora huesped´ de la revista Ciencia, volume 67, numero´ 3 2012 Editora huesped´ de la revista physica status solidi (b), volume 249, numero´ 6 03/2011 – 2017 Miembro del Consejo Editorial de la Revista Internacional ISRN Nanotechnology 2009 – 2017 Miembro del SCIYO Scienti€c Advisory Board 2011 Editora huesped´ de la revista European Physical Journal D, volumen 63, numero´ 2 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 5

Arbitro regular de las siguientes revistas internacionales a partir del ano˜ en que se indica (deje´ de contar en 2012) 2011 Nano Letters 2012 J Nanopart. Research 2010 Gold Bulletin 2010 Int J of Spectroscopy 2010 J of Materials Science 2010 Surface Science 2010 Applied Optics 2010 Langmuir 2010 Sensors & Actuators: A. Physical 2010 J Molecular Structure-Teochem 2010 J of Colloid and Interface Science 2010 Materials 2010 Current Physical Chemistry 2010 Opto-Electronics Review 2010 Journal of Applied Polymer Science 2010 Rapid Research Letter 2010 Optics Letters 2009 Journal of Optics 2009 Physica Status solidi b 2009 Optics Express 2009 J. Physical Chemistry Letters 2009 Journal of Applied Physics 2009 Materials Sci. and Engineering B 2009 Plasmonics 2009 Euro Physics Letters 2009 Crystal Research and Technology 2009 Applied Surface Science 2008 Current Nanoscience 2008 Clinica Chimica Acta 2008 Nanotechnology 2008 Applied Physics Letters 2008 European Phys. J. D 2008 Accounts of Chemical Research 2008 Physical Review A 2008 New Journal of Physics 2007 Materials Chemistry and Physics 2007 Chemical Physics Letters 2007 ACS Nano 2007 J. Nanoscience and Nanotechnology 2007 Journal of Physical Chemistry 2007 Journal of Chemical Physics 2006 Journal of Physics D 2006 Nature Nanomaterials 2005 Journal of Physics: Cond. Matter 2005 Journal of Physics A 2005 Physical Chem. Chem. Phys. 2005 Journal Am. Chem. Society 2004 Journal of Physical Chemistry B 2004 Chemistry of Materials 2003 Revista Mexicana de F´ısica 1997 Physical Review Letters 1996 Physical Review B

PREMIOS, RECONOCIMIENTOS Y DISTINCIONES

Premios y distinciones academicas´

2016 Premio Nacional de Ciencias en el area´ Ciencias F´ısico-Matematicas´ y Naturales, Gobierno de la Republica´ Mexicana.

2015 Reconocimiento como una de las academicas´ de carrera en la UNAM mas´ citadas en la literatura cient´ı€ca en el area´ de f´ısica en el 2014 segun´ SCOPUS, UNAM

2015 Reconocimiento: Juan Manuel Lozano Mej´ıa a la direccion de tesis de doctorado, Instituto de F´ısica, UNAM diciembre

2014 Reconocimiento como una de las academicas´ de carrera en la UNAM mas´ citadas en la literatura cient´ı€ca (en el area´ de f´ısica en el 2013 segun´ SCOPUS, UNAM

2013 Reconocimiento como una de las academicas´ de carrera en la UNAM mas´ citadas en la literatura cient´ı€ca en el area´ de f´ısica en el 2012 segun´ SCOPUS, UNAM

2012 Reconocimiento Sor Juana Ines´ de la Cruz, UNAM 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 6

2010 Premio Ciudad Capital: Heberto Castillo Mart´ınez, Edicion´ “Bicentenario de la Independencia y Centenario de la Revolucion´ en la Ciudad de Mexico”,´ Premio para cient´ı€cas mexicanas destacadas, otorgado por el Gobierno del Distrito Federal en colaboracion´ con la Academia Mexicana de Ciencias para Cient´ı€cas de 45 anos˜ o menos 2009 Premio Thomson Reuters al art´ıculo mexicano mas citado en qu´ımica (nanociencia). Estos premios reconocen a los autores l´ıderes de trabajos desarrollados en Mexico´ que han sido mas´ citados en su categor´ıa de investigacion´ original en los ultimos´ diez anos˜ 2009 Premio de Investigacion´ en el area´ de Ciencias Exactas otorgado por la Academia Mexicana de Ciencias 2008 Reconocimiento a la direccion´ de la mejor tesis doctoral en Ciencia e Ingenier´ıa de Materiales del certamen internacional IIM-UNAM de la alumna Ana Lilia Gonzalez´ Ronquillo 2008 Premio Weizmann en Ciencias Exactas a la alumna de doctorado Ana Lilia Gonzalez´ Ronquillo a la mejor tesis doctoral otorgado por la Academia Mexicana de Ciencias 2006 Reconocimiento a la direccion´ de la mejor tesis doctoral en Ciencia e Ingenier´ıa de Materiales del certamen internacional IIM-UNAM de la alumna Xochitl´ Lopez´ Lozano 2006 Reconocimiento “Distincion´ Universidad Nacional para Jovenes´ Academicos”´ en el area´ de Ciencias Exactas 2006, UNAM 1999 Miembro regular de la Academia Mexicana de Ciencias (AMC) 1999 Premio del Fondo “Ricardo J. Zevada” a proyectos de investigacion´ en Ciencias Exactas a Jovenes´ Cient´ı€cos 1999-2000 1997 El trabajo Theoretical and experimental optical spectroscopy study of hydrogen adsorption at Si(111)-7×7, por Cecilia Noguez, et al., Physical Review Letters 76, 4923 – 4926 (1996), fue seleccionado por el Instituto Nacional de F´ısica de la Materia (INFM) de Italia como trabajo de excelencia 1996 Premio Weizmann en Ciencias Exactas a la mejor tesis de doctorado otorgado por la Academia Mexicana de Ciencias 1996 Medalla Gabino Barreda a la mejor alumna del Doctorado en Ciencias (F´ısica), UNAM

Otros reconocimientos academicos´

2012 El art´ıculo Surface Plasmons on Metal Nanoparticles: The Inƒuence of Shape and Physical Environment, Cecilia Noguez, Journal of Physical Chemistry C 111 (10) 3806 – 3819 (2007), fue uno de los cinco art´ıculos mas´ citados desde su publicacion´ hasta los 5 anos˜ posteriores. Actualmente es la publicacion´ realizada en Mexico´ por un solo autor con mas´ citas en tres disciplinas diferentes: la f´ısica, la qu´ımica y la ciencia de materiales. 2012 El art´ıculo Plasmonic Optical Properties and Applications of Metal Nanostructures, Jin Z. Zhang, Cecilia Noguez, Plasmonics 4, 127 – 150 (2008), esta dentro de los cuatro art´ıculos mas´ citados desde su publicacion´ hasta los 5 anos˜ posteriores. Actualmente es uno de los 10 art´ıculos mas´ citados de la revista. 2011 Nominada al premio The Ernesto Illy Trieste Science Prize de la TWAS por Northwestern University y la UNAM 2010 El art´ıculo Optical Properties of Isolated and Supported Metal Nanoparticles, Cecilia Noguez, en el Optical Materials 27, 1204 – 1211 (2005), fue el segundo art´ıculo mas´ citado de la revista desde su publicacion´ hasta los 5 anos˜ posteriores. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 7

Sistema Nacional de Investigadores (SNI) y Est´ımulos academicos´ UNAM (PRIDE)

PRIDE SNI

2006 – 2020 Nivel D (maximo)´ 2011 – 2021 Nivel III (maximo)´ 1999 – 2006 Nivel C 2002 – 2010 Nivel II 1995 – 1999 Nivel B 1996 – 2002 Nivel I 1994 – 1996 Candidato

Becas

07/2000–10/2000 Estancia de verano Fundacion´ Mexico–Estados´ Unidos para la Ciencia y Academia Mexicana de Ciencias 1993 – 1995 Estudios de doctorado DGAPA-UNAM 1991 – 1993 Ayudante de Inv. Nacional nivel III 1990 – 1992 Estudios de maestr´ıa DGAPA-UNAM 1986 – 1990 Estudios de licenciatura DGAPA-UNAM 1983 – 1984 Estudios de preparatoria, sistema incorporado UNAM

CONFERENCIAS, SEMINARIOS Y COLOQUIOS (315)

Por invitacion´ (178)

– Invitaciones internacionales ...... 86 – Invitaciones nacionales ...... 72 – Invitaciones en otros eventos ...... 20

– Platicas´ invitadas internacionales

2018 Invitada Gordon Research Conference Noble Metal Nanoparticles GRC at Mount Holyoke College, South Hadley, MA during the week of June 17-22. Programada.

2018 Plenaria Simposio Latinoamericano de F´ısica del Estado Solido´ XXIII, SLAFES XXIII, Bariloche, Argentina 10-13 abril. Programada.

2017 Panelista On the Ground: Learning from Successful Initiatives. Gender Summit 11. November 6 to 8, Montreal, Quebec.

2017 Plenaria X International Conference on Surfaces, Materials and Vacuum, September 25th to 29th, Ciudad Juarez, Chihuahua.

2017 Panelista Mission Innovation Expert Workshop on Energy Materials Innovation. Mexican Ministry of Energy and the U.S. Department of Energy. Mexico City on 11–14 September.

2017 Plenaria Mexican Optics and Photonics Meeting 2017 in Tonantzintla, Puebla, Mexico on September 6 to 8.

2017 Conference Symposium Nano-alloys: Theory, Synthesis & Characterization taking place within XXVI IMRC to be held 20-25 August in Cancun Q. Roo, Mexico.

2017 Conference Symposium Biomedical Applications of Nanoparticles taking place within XXVI IMRC to be held 20-25 August in Cancun Q. Roo, Mexico. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 8

2017 Conference Optics of Surfaces and Interfaces (OSI-12), to be held June 25-30, in Dublin, Ireland .

2017 Coloquio Leibniz-Institut fur¨ Analytische Wissenscha†en ISAS e.V., June 22, in Berlin, Germany.

2017 Coloquio Zernike Institute for Advanced Materials, June 20, in Universidad de Groeningen, Holanda.

2017 Conference Mexican-Italian Nanophotonics Workshop (MINW) 16-20 January at Tequisquiapan, Queretaro, Mexico.

2017 Conference XLVI edition of the Winter Meeting of Statistical Physics WMSP-2017 will take place in Hotel Monte Taxco, in Taxco Guerrero, Mexico, from the 8th to 11th of January. Declinada.

2016 Conference 6th Mexican Workshop on Nanostructured Materials (MWNM) which will be held during October 12-14, at Puebla Mexico.

2016 Distinguished Speaker Latin America Optics and Photonics LAOP 2016 Medellin, Colombia from August 22nd to August 25th. Declinada.

2016 Conference VI Leopoldo Garcia–Colin Mexican Meeting on Mathematical and Experimental Physics, Colegio Nacional in Mexico Cit, September 5 – 9.

2016 Conference Frontiers in Computational Chemistry, School of Chemistry of the National Autonomous University of Mexico (UNAM) in Mexico City will be held on August 24 and 25.

2016 Conference META16, the 7th International Conference on Metamaterials, Photonic Crystals and Plasmonics, Torremolinos – Malaga, Spain, from 25 to 28 July.

2016 Discussion Leader Gordon Research Conference: Noble Metal Nanoparticles June 19–24, Mount Holyoke College, South Hadley, MA.

2016 Conference Workshop in Nanotechnology and Advanced Materials CONACYT-CNR Italy, 11 – 15 April

2015 Conferencia Energy, Materials, and Nanotechnology, EMN Fall Meeting, from November 16 to 20, Las Vegas, Nevada.

2015 Conferencia Mexican Optics and Photonics Meeting, Leon´ Guanajuato, Mexico´ September 9–11.

2015 Conferencia 7o Taller Chile-Mexico´ sobre Magnetismo, Nanociencias y sus Aplicaciones, Arica Chile 3–7 Septiembre.

2015 Conferencia Spintronics 60, August 7–8, Cancun, QR, Mexico.´

2015 Coloquio Enhancing mechanisms of optical activity of chiral molecules adsorbed in metallic nanoparticles, Air Force Research Laboratory, Materials & Manufacturing Directorate, Wright-Patterson Air Force Base, Dayton Ohio, 29 Mayo

2014 Conferencia 2014 Energy Materials Nanotechnology (EMN) Fall Meeting, from November 22 to 25, 2014 at Orlando, Florida.

2014 Tutorial Latin America Optics & Photonics Conference (LAOP) 16 - 21 November 2014, Cancun, Mexico.

2014 Conferencia 8th International Meeting on Photodynamics and Related Aspects, Oaxaca, Mexico,´ 26-31 October 2014.

2014 Conferencia XXIII INTERNATIONAL MATERIALS RESEARCH CONGRESS 2014, Simposium Materials Relevance in Fluctuation- induced Interactions, Cancun, Mexico 17 – 21 August 2014.

2014 Conference Epioptics-13 in Erice, Italy July 2014, 26 - August 2014.

2013 Coloquio Optically Active Metal Nanoparticles en Leibniz Institute for Analytical Sciences -ISAS- e.V. in Berlin, Germany, September 16 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 9

2013 Conferencia Plasmonics: Fundamentals and Applications en 10th International Conference on Optics of Surfaces and Interfaces (OSI 10) hosted in Chemnitz, Germany, September 8-13

2013 Conferencia Mapping Structural and Plasmonic Properties of Gold Nanoparticles en “2013 Progress in Electromagnetics Research Symposium”(PIERS 2013 Stockholm) Symposium Special Session Advanced Techniques in Nanoelectromag- netics Applications. Stockholm, Sweden, on August 12-15

2013 ConferenciaThe 4th Annual World Congress of NanoMedicine during June 5-7, Suzhou, China. Declinada

2012 Conferencia Second International Conference on Small Science (ICSS 2012), 16-19 December at Walt Disney World Swan and Dolphin hotel, Orlando Florida, USA. Declinada

2012 Conferencia Plasmonic nanostructures and applications en Workshop within the PASI program on “Frontiers in Casimir Physics”, October 6-17, Ushuaia, Argentina

2012 Plenaria Plasmonics: Manipulating light at the nanoscale en el XXI IMRC, Cancun Mexico, August 12-17

2012 Conferencia EPIOPTICS-12, NANOLUM-3 24-29 July, International School of Solid State Physics, Erice Italia. Declinada.

2012 Conferencia Plasmonics and electromagnetic €eld enhancement in metal nanoparticles Simposio 1C ”Nanostructured Materials and Nanotechnology.en el XXI IMRC, Cancun Mexico, August 12-17

2012 Conferencia Plasmonica:´ manipulando luz con nanopart´ıculas en Taller Binacional Mexico-Argentina´ en Nanotecno- log´ıa, Junio, 21-22

2012 Plenaria Plasmonics and electromagnetic €eld enhancement in metal nanoparticles en Nanomex 2012, Puebla, Puebla from Jun. 11–13

2012 Conferencia Designing the Plasmonic Response of Metal Nanoparticles en Pan American Advanced Studies Institute (PASI) on Computational Materials Science for Energy Generation and Conversion held in Santiago, Chile from Jan. 9-20

2011 Conferencia Designing the Plasmonic Response of Metal Nanoparticles en First Meeting of the American Initiative on Metal Clusters and Nanoalloys, November 16 to 18, San Antonio Texas.

2011 Conferencia Quantum Calculations of Optical Activity in Chiral Nanostructures, Conference on Computational Physics, Glatinburg Tennessee, USA, 30th October – 3rd November

2011 Lecturer Winter School J.J. Giambiagi on Nanophotonics at Departamento de Fisica de la Facultad de Ciencias Exactas de la Universidad de Buenos Aires, July 18–22 Declinada.

2011 Plenaria Designing the plasmonic response of noble metal nanoparticles, Nanotech 8, Tuxtla Gutierrez Chiapas, May 23 –25

2011 Seminario Designing the plasmonic response of noble metal nanoparticles, Northwestern University, Materials Research Science and Engineering Center, January 20th

2010 Plenaria Inƒuence of morphology on the optical properties of metal nanoparticles, Molecular Modelling – 2010: Advances in Biomolecular and Materials Modelling, which will be held in Melbourne, Australia from the 28th November to 1st December

2010 Seminar Designing the plasmonic response of noble metal nanoparticles at University of Technology of Sidney, Aus- tralia, 23th December

2010 Seminar at School of Chemistry, The University of Melbourne, Australia, December 2nd, Declinada. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 10

2010 Coloquio Designing the plasmonic response of noble metal nanoparticles, University of Notre Dame, Department of Chemistry and Biochemistry December 9th

2010 Coloquio Designing the plasmonic response of noble metal nanoparticles, Northwestern University, Materials Research Center, November 9th

2010 Plenaria at XXX Annual Meeting International Conference on Surfaces, Materials and Vacuum 2010, September 27 to October 1st, Mexico Declinada

2010 Coloquio Into the origin of optical activity of gold nanoparticles and carbon nanotubes, Ohio University , Department of Physics and Astronomy October 14th

2010 Discussion Leader en la Gordon Research Conference: Noble Metal Nanoparticles, Preparation, Modeling and Applica- tions June 20-25, Mount Holyoke College, South Hadley, MA

2010 Conferencia Tuning surface plasmons in multishell metal nanoparticles, SPIE’s event Photonics Europe Brussels, Belgica´ 12 –16 April

2010 Conferencia at BIT’s 1st Annual World Congress of Catalytic Asymmetric Synthesis-2010, May 19-21, Beijing, China. Declinada

2010 Conferencia International Conference on Nanomaterials: Synthesis, Characterization and Applications (ICN-2010) April 27- 29 at Mahatma Gandhi University, Kottayam, Kerala, India. Declinada

2009 Conferencia Chirality at the Nanoscale, Optics of Surfaces and Interfaces VIII, Ischia, Italy 7 -11 September

2009 Conferencia Into the origin of optical activity of ligand-protected gold nanoparticles Symposium Protected Metallic Clusters, Quantum Wells and Metal-nanocrystal Molecules, American Chemical Society 238th National Meeting 16–20 August, Washington DC EU.

2009 Conferencia Academic situation in Mexico on Nanoscience and Nanotechnology, with emphasis on UNAM and REGINA, The €rst annual ICPCNanoNet workshop, June 1st, Praga, Republica Checa

2009 Conferencia Optically active nanoparticles Reunion´ Internacional Nanociencias, Monterrey 2009, Nuevo Leon.´ 19-22 Mayo

2009 Seminario Optical properties of nanoparticles Department of Physics & Astronomy, University of Texas at San Antonio, Texas, EU, Abril 14

2009 Seminario Optical Porperties of Nanoparticles en Department of Chemistry and Biochemistry, Windsor University, Ontario Canda, March 13

2008 Conferencia Plasmonics en International Workshop on Advanced Materials for Optoelectronics and Related Physics (AMORPHY), INAOE, Puebla, October 5-11

2008 Conferencia Optical circular dichroism of bare and passivated Au nanoclusters en International Symposium on Monolayer-Protected Clusters, Nanoscience Center, University of Jyvaskyl¨ a,¨ Finland, September 12-13

2008 Conferencia Circular dichroism of nanotubes and gold clusers EPIOPTICS-10 International School of Solid State Physics, Erice-Sicily, 20-27 June

2008 Seminario Surface Plasmon Resonances on Metal Nanoparticles, Air Force Research Laboratory, Materials & Manufac- turing Directorate, Wright-Patterson Air Force Base, Ohio, 25 Enero 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 11

2007 Conferencia Redes en nanotecnolog´ıa, Encuentro Nano Mercosur 2007, 7 – 9 de agosto, Buenos Aires, Argentina. Organizado por la Fundacion´ Argentina de Nanotecnolog´ıa

2007 Conferencia Optical properties of nanoparticles, Celebrando a Carmen Varea, IFUNAM, Mexico,´ Noviembre 29-30

2007 Conferencia Surface plasmon resonances on metal nanoparticles, 2a Reunion Nacional de La DINANO, Boca del R´ıo, Veracruz, Mexico, 30 y 31 de mayo y 1 de junio

2006 Seminario Inƒuence of geometry in the surface plasmon resonances of nanoparticles, INFM, Department of Physics, University of Rome Tor Vergata, Italia, 20 de enero

2006 Conferencia Plasmones de super€cie en nanopart´ıculas metalicas´ , Atomos,´ untos cuanticos´ y nanoestructuras, Simposio homenaje a Sergio E. Ulloa, 18 de septiembre, Mexico´ D. F.

2006 Conferencia Surface plasmon resonances on metal nanoparticles, Trends on Novel Materials Workshop, 16-20 octubre, Santa Marta Colombia.

2005 Conferencia Optical properties of metallic nanoparticles, Scanning Probe Microscopy, Sensors, & Nanostructures, Can- cun, Mexico´ del 4 al 8 de junio

2005 Conferencia Recent results on nanocomposites, “Una platica´ con Harold Kroto, Premio Nobel de Qu´ımica 1996”, IFUNAM, 21 de septiembre

2005 Conferencia Presentation of REGINA-UNAM, “Una platica´ con Harold Kroto, Premio Nobel de Qu´ımica 1996”, IFUNAM, 21 de septiembre

2004 Conferencia Optical properties of chiral nanostructures, International Workshop on Nanoscience, Mexico´ D.F. 27 y 28 de mayo

2004 Conferencia Propiedades opticas´ de Nanoestructuras, Nanostructures Materials and Nanotecnology dentro IV Semanas Nacionales de Cristalograf´ıa, Leon´ Guanajuato, del 22-24 septiembre

2004 Conferencia Optical properties of nanoestructures, XII International Materials Research Congress dentro del simposio Nanostructured Materials and Nanotechnology, Cancun´ Mexico,´ 22-26 de agosto

2004 Conferencia Propiedades opticas´ de nanoestructuras quirales, sesion´ de calculos´ teoricos´ del XXIV Congreso de la Sociedad Mexicana de Ciencia y Tecnolog´ıa de Super€cies y Materiales, Riviera Maya, del 27 al 30 de septiembre

2003 Conferencia Casimir e‚ect on nanoparticles Mini simposio homenaje a Ruben´ G. Barrera. Centro de Ciencias F´ısicas, UNAM, 7 de abril

2001 Conferencia Rheological properties of suspensions, INTERNATIONAL MATERIALS RESEARCH CONGRESS: CANCUN, Trabajo realizado con: R. Esquivel-Sirvent, y G. Ram´ırez.

2000 Seminario Substrate e‚ects in the optical properties of spheroidal nanoparticles, CMSS Colloquium, Mayo, Ohio Uni- versity.

1994 Seminario Optical properties of semiconductors surfaces: Si(111)-7×7, Seminario del programa de Materia Condensada y Ciencias de Super€cies, Ohio University, 26 de octubre

1993 Seminario Optical properties of 1D composites Seminario de Estructura de la Materia, Departamento de F´ısica, Uni- versidad de Roma II, Roma, Italia, 3 de junio 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 12

– Platicas´ invitadas nacionales

2017 Conferencia 3a Reunion´ “Construyendo el futuro- Encuentros de Ciencia” organizado por la Academia Mexicana de Ciencias. 21–24 noviembre Morelia, Michoac·n

2017 Seminario Mexico-China Workshop on NANO, Agosto 16.

2017 Seminario Sotero Prieto IFUNAM, Agosto 16.

2017 Coloquio Cinvestav, Junio 1.

2017 Coloquio UAM Azcapozalco, Mayo 17.

2017 Coloquio Posgrado en Ciencias F´ısicas, UNAM. Mayo 9.

2017 Coloquio Plasmonica:´ Comprimiendo Luz a la Nanoescala. Unidad Academica´ de F´ısica, Universidad Autonoma´ de Zacatecas, 27 de abril.

2017 Conferencia Reunion´ Anual de la Division´ de Estado Solido,´ Sociedad Mexicana de F´ısica 27 al 29 de abril COZCyT, Zacatecas, Zac.

2017 Seminario III Simposio del Cap´ıtulo Estudiantil CFATA, UNAM. Marzo 31.

2017 Magistral Universidad de Guanajuato, “ Mujeres en la Ciencia: Retos y Oportunidades hacia el 2030”. Marzo 28.

2017 Coloquio Instituto de Ciencias F´ısicas, UNAM. Marzo 15.

2017 Seminario Departamento de F´ısica, Universidad de Sonora. Febrero 8.

2017 CharlaJ ovenes´ estudiantes de las escuelas: Prepa Tepito, BAU Atzcapozalco y BAU Teatro del Pueblo. Secretario de Educacion´ de la Ciudad de Mexico.´ Mexico.´ Enero 31.

2017 PanelNI NASTEM˜ PUEDEN: Red de Mentoras OCDE-Mexico´ para Promover el Esp´ıritu STEM en las Ninas˜ y Jovenes´ Mexicanas. OCDE-SEP. Mexico.´ Enero 9.

2016 Coloquio Instituto de F´ısica “Grafeno Quiral”, 27 Octubre.

2016 Conferencia Mexican Academy of Science “F´ısica en Ciencia y Humanismo II”, 24 – 26 August.

2016 Coloquio Actividad optica´ a escala nanometrica´ , Instituto de F´ısica, Universidad Automona´ de San Luis Potos´ı, 2 de marzo

2015 Conferencia Luz a escala nanometrica´ , XV Semana de geolog´ıa, Miner´ıa, Metalurgia y Materiales, Universidad Automo-´ na del Estado de Hidalgo, 9 de octubre

2015 Conferencia Luz a escala nanometrica´ , Programa Conferencias Premios de Investigacion´ de la Academia 2015, Junio 4.

2015 Conferencia Luz a escala nanometrica´ , Programa Conferencias Premios de Investigacion´ de la Academia 2015, Junio 4.

2015 Seminario Luz a escala nanometrica´ ,Ano˜ Internacional de la Luz, INAOE, Junio 10.

2015 Conferencia nanotecnolog´ıa, presente y futuro GeneraciUnˆ 58 de la Facultad de Ingenier´ıa de la UNAM, Mexico´ D.F. 24 de marzo.

2014 Magistral Plasmonica: luz a la nanoescala, XXIV Congreso Tecnico-Cient´ ´ı€co del ININ-SUTIN, 3 de diciembre. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 13

2014 Plenaria Plasmonica, campo cercano y espectroscopias aumentadas, CICATA Legaria, 16 de octubre.

2014 Plenaria Plasmonica: Manipulando luz a escala nanometrica., Congreso Nacional de F´ısica, 5–10 de octubre.

2014 Coloquio Plasmonica, campo cercano y espectroscopias aumentadas, Instituto de Ciencias F´ısicas, UNAM, 2 de abril

2014 Seminario Plasmonica, campo aumentado y espectroscopias, Seminario Sotero Prieto, IFUNAM, 29 de enero

2013 Conferencia Manipulando luz a escala nanometrica´ , Universidad Autonoma´ del Estado de Mexico´ en el marco de la semana de Nanoqu´ımica, Toluca, Mexico,´ 30 de octubre

2013 Seminario Nanopart´ıculas Metalicas´ Opticamente´ Activas, Seminario del XXIII Aniversario, IF-BUAP, 20 de septiembre

2013 Panelista Algunas tendencias en la F´ısica: Analisis´ del estado del arte de la nanociencia mexicana, en Hacia donde´ va la Ciencia en Me´exico,´ 17 abril Univ. de Guanajuato campus Leon.´

2013 Seminario Con€guracion´ absoluta de nanotubos de carbono, Seminario Sandoval Vallarta, IFUNAM, 17 de mayo

2013 Seminario Plasmonica: Fundamentos y aplicaciones, 17 abril Univ. de Guanajuato campus Leon.´

2013 Seminario Divisio´on´ de Materiales Avanzados del Instituto Potosino de Investigacio´on´ Cient´ı€ca y Tecnologica´ (IPICYT), 13 de marzo

2012 Seminario Programa de Ingenier´ıa Molecular (PIM), en el Instituto Mexicano del Petroleo´ (IMP), 9 de agosto

2012 Conferencia Grandes Retos del Siglo XXI, Difusion´ Cultural UNAM, 21–25 mayo Ciudad de Mexico´

2012 Conferencia III CONGRESO NACIONAL DE CIENCIA E INGENIER´IA EN MATERIALES, Merida,´ del 27 de Febrero al 2 de Marzo

2012 Seminario Dicro´ısmo circular optico´ de nanopart´ıculas, Seminario Sandoval Vallarta, IFUNAM, 27 de enero

2012 Conferencia Cuando el futuro de la nanotecnolog´ıa nos alcance, Evento Ciencia y Sociedad, Academia Mexicana de Ciencias. Enero 18 al 20

2010 Coloquio Nanopart´ıculas opticamente´ activas, UAM-I, Junio

2010 Coloquio Nanopart´ıculas opticamente´ activas, CINVESTAV, Marzo

2010 Conferencia Magistral Nanociencia y nanotecnolog´ıa, Avances de las Mujeres en las ciencias, humanidades y todas las disciplinas: II Congreso Nacional, Marzo

2009 Conferencia Nanopart´ıculas opticamente´ activas, 4o. Encuentro Internacional de Nanotecnolog´ıa, Centro Universitario de los Lagos, de la Universidad de Guadalajara, 27-29 Julio

2008 Conferencia Nanotecnolog´ıa,Camara´ de Diputados del H. Congreso de la Union,´ 30 de septiembre

2007 Conferencia Comportamiento optico´ de part´ıculas en escala nanometrica´ , IV Encuentro de la participacion´ de la mujer en la Ciencia, 24-25 mayo

2007 Seminario Propiedades opticas´ de nanopart´ıculas, Seminario Sandoval Vallarta, IFUNAM, 27 /04

2007 Conferencia Nanociencia y nanotecnolog´ıa,D´ıa de puertas abiertas del IFUNAM, 8 de noviembre

2007 Conferencia ¿Como´ se ven las nanopart´ıculas?, Coloquio del Posgrado en Ciencias F´ısicas, 24/02

2007 Panelista Tecnolog´ıas precursoras como fuente de conocimiento, empleo y competitividad: nanotecnolog´ıa 4◦ semi- nario regional de innovacion.´ Foro Consultivo Cient´ı€co y Tecnologico.´ Agosto 27, Toluca Edo. de Mexico´ 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 14

2007 Panelista El Desarrollo de la Nanociencia en Mexico, dentro del programa de la 2a Reunion Nacional de La DINANO, Boca del R´ıo, Veracruz, Mexico, 30 y 31 de mayo y 1 de junio

2006 Panelista El Futuro de la F´ısica en el Instituto, Congreso Anual Interno, Octubre

2005 Panelista Identi€cation of potential areas for bi-national collaboration in nanoscience/nanotechnology, “Workshop on perspectives for bi-national collaboration on nanoscience”, May 19th, San Luis Potos´ı, S. L. P. Mexico´

2004 Conferencia Propiedades opticas´ de nanoestructuras quirales, 3a. Reunion´ de Nanociencia y Nanotecnolog´ıa, San Luis Potos´ı, Mexico´ 21-23 mayo

2004 Seminario Propiedades opticas´ de nanoestructuras Seminario Sotero Prieto-REGINA, IFUNAM, 23 de junio

2004 Seminario Propiedades opticas´ de nanopart´ıculas, Instituto de Ciencias Nucleares, 20 de octubre

2004 Conferencia Estudio de la quiralidad de nanotubos por medios opticos´ , XLVII Congreso Nacional de F´ısica, Hermosillo Sonora, 25-29 octubre

2003 Conferencia F´ısica computacional de nanomateriales, Ceremonia-simposio para la inauguracion´ del nuevo cluster (ultra-€s), IFUNAM, 26 de noviembre

2003 Conferencia Observando atomos´ con luz, Una Mirada al Posgrado en Ciencias F´ısicas, Fac. de Ciencias UNAM, 19 de junio

2003 Seminario Fuerzas dispersivas en sistemas a escala nanometrica´ Seminario Sotero Prieto, IFUNAM, 2 de julio

2003 Conferencia Observando atomos´ con luz, Escuela de Verano de F´ısica, IFUNAM, 14 de julio

2003 ConferenciaF ´ısica computacional de nanomateriales, D´ıa de puertas abiertas del IFUNAM, 12 de noviembre

2003 Seminario Efecto casimir en nanopart´ıculas Seminario Sotero Prieto, IFUNAM, 9/04

2002 Seminario Fuerzas de Casimir entre una nanopart´ıcula y un substrato: mas´ alla´ de la aproximacion´ dipolar Taller Seminario de Gravitacion´ y F´ısica Cuantica,´ IFUNAM noviembre

2001 Seminario Efectos no lineales en propiedades reologicas´ de suspensiones, SEMINARIO MANUEL SANDOVAL VALLARTA, IFUNAM, 25 mayo

2001 Seminario Carcaterizacion´ optica´ de nanopart´ıculas Seminario ”Fronteras de la F´ısica”, Centro de Ciencias F´ısicas, UNAM, 19 septiembre

1998 Conferencia Calculos´ de primeros principios de las propiedades opticas´ de solidos´ , Escuela de otono˜ de Qu´ımica Computacional, DGSCA-UNAM, 3-27 noviembre

1998 Seminario Perdida´ de energ´ıa electronica´ en sistemas anisotropicos´ , Seminario, Instituto de F´ısica, BUAP, 6 noviembre

1997 Seminario Calculos´ microscopicos´ de las propiedades opticas´ de medios inhomogeneos´ , Seminario M. Sandoval Va- llarta, IFUNAM, enero

1996 Seminario Dinamica´ Molecular y Propiedades Opticas de Cumulos´ de Silicio, Seminario de Estado Solido´ ”Sotero Prieto”, IFUNAM 26 junio

1996 Seminario Estructura y propiedades opticas´ de cumulos´ de silicio, Seminario, Instituto de F´ısica, BUAP, 13 septiembre

1995 Seminario Propiedades opticas´ de super€cies semiconductoras, Seminario de Sistemas Dinamicos´ y Complejos, IFU- NAM, junio 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 15

1995 Seminario Super€cies de diamante, Seminario de Estudiantes Carlos Graef, IFUNAM, 6 julio

1994 Seminario Transiciones electronicas´ en Si(111) reconstruido 7 × 7, Seminario de Estado Solido´ ”Sotero Prieto”, IFUNAM, 24 de agosto

– Platicas´ de divulgacion´

2017 Platica´ de divulgacion´ en el CCH Sur, impartida el 12 de octubre. Dentro del programa Premios Nacionales.

2016 Platica´ de divulgacion´ en el museo de la Luz, impartida el 26 de noviembre, dentro de la presentacion´ del numero´ de la revista Ciencia ”Y se hizo la luz”de la AMC

2015 Platica´ de divulgacion´ en el museo de la Luz, impartida el 8 de noviembre, dentro del programa Domingos en la Ciencia de la AMC

2013 Platica´ de divulgacion´ en el D´ıa de Puertas Abiertas del IFUNAM, 15 de noviembre.

2012 Platica´ de divulgacion´ en el CCH Sur, impartida el 6 de septiembre. Dentro del programa de F´ısica.

2009 Platica´ de divulgacion´ en la sede de Universum, impartida el 8 de noviembre, dentro del programa Domingos en la Ciencia de la AMC

2008 Platica´ de divulgacion´ en el programa de radio Imagen en la Ciencia FM 90.5. Entrevista 2 de diciembre. Nanotecno- log´ıa.

2007 Platica´ de divulgacion´ en el programa de radio del Instituto Mexicano de la Radio (IMER), en el 660 de AM, Constructores del Conocimiento, el 3 de diciembre

2007 Platica´ de divulgacion´ en el programa de radio en RADIO UNAM, en el 860 de AM, PERFILES, el 10 de diciembre

2005 Platica´ de divulgacion´ en la Escuela Nacional Preparatoria platel No. 1, impartida el 16 de febrero dentro del marco de actividades del Ano˜ Internacional de la F´ısica

2005 Platica´ de divulgacion´ en el Museo de la Luz, impartida el 9 de junio dentro del marco de actividades del Ano˜ Internacional de la F´ısica

20053 Pl atica´ de divulgacion´ en La Feria de la F´ısica, impartidas el 25 y 27 de noviembre dentro del marco de actividades del Ano˜ Internacional de la F´ısica

2003 Platica´ de divulgacion´ en la sede del Centro de Extension´ Tacuba, impartida el 31 de mayo, dentro del programa Domingos en la Ciencia de la AMC

2003 Platica´ de divulgacion´ en el museo UNIVERSUM impartida el 24 de septiembre, dentro de la semana de la nanociencia y la nanotecnolog´ıa.

2003 Platica´ de divulgacion´ en el Museo Tecnologico´ de la CFE, impartida el 12 de octubre, dentro del programa Domingos en la Ciencia de la AMC

2002 Platica´ de divulgacion´ en el Planetario de Morelia, Michoacan,´ impartida el 23 de noviembre, dentro del programa Domingos en la Ciencia de la AMC

2001 Platica´ de divulgacion´ en el Colegio Latino de Mexico´ (nivel preparatoria) impartida el 24 de enero, dentro del ciclo 100 anos˜ de la Mecanica´ Cuantica´ 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 16

2001 Platica´ de divulgacion´ en el museo UNIVERSUM impartida el 4 de marzo, dentro del programa Domingos en la Ciencia. 2001 Platica´ de divulgacion´ en el Colegio de Bachilleres # 20 (nivel preparatoria) impartida el 8 de mayo, dentro del ciclo Jovenes´ a la Investigacion.´ 2001 Platica´ de divulgacion´ en el programa de radio UNAM, DESLINDE, el 9 de octubre

Presentaciones regulares en congresos (137)

— Trabajos en congresos internacionales ...... 117 — Trabajos en congresos nacionales ...... 20 La lista de estas presentaciones se encuentra al €nal del CV

PROYECTOS FINANCIADOS

Responsable (16)

2016 Transferencia de calor radiativa en sistemas plasmonicos, propuesta aprobada CONACYT No. 2015-02-1290. 2016/18 Assessment of Exchange-Correlation Functionals of the Description and Prediction of Electronic and Optical, AFOSR. 2015/17 Campo electromagnetico´ aumentado por medio de nanopart´ıculas metalicas´ , DGAPA-UNAM proyecto IN107615 2014/15 Investigation of Plasmon-Enhanced Visible Light Photoactivity of Titanium Dioxide Photoelectrodes for Solar Water Oxidation UC MEXUS-CONACYT Collaborative Research Grants 2013/14 Bases para la deteccion´ de moleculas´ de interes´ ambiental y biologico´ mediante espectroscopias opticas´ ultrasensibles por medio de la excitacion´ de plasmones de super€cie CONACyT SRE 2012-3 del fondo Secretaria de Relaciones Exteriores proyecto 191767 2013/15 Plasmonica´ de nanopart´ıculas metalicas´ para el aumento en la sensibilidad de espectroscopias opticas´ , CONACyT Ciencia Basica´ proyecto 179454 2012/14 Actividad optica´ y plasmonica´ de nanopart´ıculas, DGAPA-UNAM proyecto IN104212 2011 Optics of Surfaces and Interfaces Congress, AFOSR, 2009/10 Surface Plasmon Resonances in 1D- and 2D- Arrays of Metal Nanoparticles for the Control of Enhanced Spectroscopies, AFOSR, 2008/10 Propiedades opticas´ de nanoestructuras quirales, DGAPA-UNAM proyecto IN106408 $ 527,890.00 pesos 2007/10 Propiedades opticas´ de nanopart´ıculas, CONACyT Ciencia Basica´ proyecto 48521 2004/07 Efecto casimir en materiales reales, DGAPA-UNAM proyecto IN101605 2002/05 Propiedades opticas´ de materiales usando metodos´ de primeros principios CONACyT Ciencia Basica´ proyecto 44306 1999/00 Estudio teorico´ de las propiedades opticas´ de nitruros, Fundacion´ “Ricardo J. Zevada”. 1997/99 Propiedades electronicas´ y opticas´ de super€cies y sistemas desordenados, CONACyT Ciencia Basica´ proyecto 3035PE 1995/96 First-Principles Calculations of Optical Properties of Semiconductor Surfaces, Ohio Supercomputer Center, Research Grant 700 Resource Units in Cray Y/MP Computer. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 17

Corresponsable (4)

2001/04 Propiedades opticas´ y elasticas´ de la materia granular: esparcimiento de luz y sonido, DGAPA-UNAM proyecto

1999/01 Efectos de campo local en sistemas con geometr´ıas restringidas, CONACyT Ciencia Basica´

1997/00 Propiedades f´ısicas de sistemas inhomogeneos´ , DGAPA-UNAM

1996/97 Propiedades opticas´ y elasticas´ de medios inhomogeneos´ , CONACyT Ciencia Basica´

Participante (12)

2016 Propiedades opticas´ y mecanicas´ del grafeno, IFUNAM.

2016 Transferencia de calor radiativa en nanoestructuras, IFUNAM

2016 Desarrollo y fortalecimiento del Lab. de nanofotonica´ avanzada, CONACYT 268414 Proyecto de infraestructura

2013 Detector de molecula´ individual con resolucion´ atomica´ acoplado a un sistema de espectroscopia Raman aumentado por punta, CONACYT 204855 Proyecto de infraestructura.

2012 Estudio de quiralidad y plasmonica´ a nivel atomico´ y molecular usando el STM y aumento de espectroscop´ıa Raman por punta (TERS) a 5K en UHV, CONACyT.

2004/07 Efecto casimir en materiales reales, Financiado por CONACyT. (R. Esquivel-Sirvent).

2004 Propiedades opticas´ de nanoestructuras, Proyecto VIEP-BUAP II 193/EXC/G. (L. Meza-Montes)

2002/05 Propiedades electronicas´ de sistemas semiconductores de baja dimensionalidad: Nanoalambres y espintronica´ en puntos cuanticos´ , CONACYT 36764-E. (L. Meza-Montes)

1999/04 Laboratorio de simulacion´ de sistemas de muchos cuerpos: de atomos´ a materia condensada, Financiado por CONACyT. Enero 1999 a diciembre 2004.

2001/02 Alambres atomicos´ adsorbidos sobres sustratos semiconductores, Programa de colaboracion´ UNAM-BUAP. (L. Meza- Montes)

2001/02 Propiedades electronicas´ de sistemas semiconductores de baja dimensionalidad: Nanoalambres y espintronica´ en puntos cuanticos´ , VIEP-BUAP II16I01. (L. Meza-Montes)

1999/01 Efectos de acoplamiento y no linealidad en ondas s´ısmicas, CONACyT.

FORMACION´ DE RECURSOS HUMANOS

Cursos Docentes (54)

Cursos regulares de licenciatura ...... 27 Cursos regulares en el Posgrado en Ciencias F´ısicas, UNAM ...... 14 Cursos regulares impartidos como ayudante en Facultad de Ciencias, UNAM...... 7 Cursos especiales y de verano ...... 6 TOTAL DE CURSOS IMPARTIDOS ...... 54 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 18

NIVEL CURSO IMPARTIDO No. VECES SEMESTRE(S) Posgrado Taller de Mecanica´ Estad´ıstica 1 (98) Posgrado Estado Solido´ 4 (2000, 06,08, 12-2) Posgrado Electrodinamica´ Clasica´ 3 (99, 2001, 04) Posgrado F´ısica Computacional 1 (2002) Posgrado Propedeutico´ Mec. Cuantica´ 1 (1999) Posgrado F´ısica de Nanomateriales 1 (2007-2) Posgrado Mecanica´ Cuantica´ I 3 (2013-1, 2013-2, 2014-2) Licenciatura F´ısica Teorica´ II: Termodinamica´ 1 (92) Licenciatura Introduccion´ al Estado Solido´ 3 (97-I, 97-II, 99) Licenciatura Laboratorio de F´ısica Clasica´ II COF 1 (99) Licenciatura Temas Selectos de Estado Solido´ 1 (99) Licenciatura F´ısica Moderna III 1 (2000) Licenciatura F´ısica Teorica´ III: Electromagnetismo 1 (2001) Licenciatura F´ısica Computacional 8 (2002, 2003, 2004, 2005) Licenciatura F´ısica Computacional 1 (10-1) Licenciatura F´ısica Clasica´ I: mecanica´ 1 (2002) Licenciatura Laboratorio II de Ingenier´ıa F´ısica 1 (09-2) Licenciatura Propedeutico´ F´ısica Computacional 1 (1999) Licenciatura F´ısica atomica´ y materia condensada 1 (2010-1) Licenciatura Introduccion´ a la F´ısica Cuantica´ 1 (2014-1) Licenciatura Electromagnetismo I 3 (14-2, 15-2, 17-2) Licenciatura F´ısica Contemporanea´ 1 2016-1 Licenciatura Estado Solido´ 1 (2016-2) Especial Propiedades opticas´ de super€cies cristalinas 1 (96) Especial F´ısica Computacional 1 (2001) Especial F´ısica de Nanomateriales 1 (2002) Especial F´ısica del Edo. Solido´ en F´ıs. Contempo. 1 (08-1) Especial Nanociencia en F´ıs. Contempo. 2 (09-1 y 10-1) Ayudante F´ısica Clasica´ I: Mecanica´ 1 (89) Ayudante F´ısica General 4 (90-I, 90-II, 91-I, 91-II) Ayudante F´ısica Teorica´ II: Termodinamica´ 1 (90) Ayudante Mecanica´ Estad´ıstica 1 (93) TOTAL 54

Tesis y posdoctorantes

GRADO TERMINADAS EN PROCESO Licenciatura 4 – Maestr´ıa 7 – Doctorado 5 1 Posdoctorado 6 2 Otros 1 – TOTAL 233 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 19

– Finalizados (23)

2017 Mart´ın Ernesto Figueroa Delgadillo Maestr´ıa 08/2011 – 08/2017 Instituto de F´ısica, Posgrado en Ciencias F´ısicas UNAM Fecha de examen: 18 de agosto 2017.

2017 David Enrique Medina Quiroz Otro 07/06/2017 – 04/08/2017 XXVII Verano de la Investigacion´ Cient´ı€ca, AMC

2017 Humberto Batiz´ Guerrero Licenciatura 04/2016 – 06/2017 Facultad de Ciencias UNAM Publicaciones: 1 en ACS Photonics Fecha de examen: 22 de junio 2017

2017 Francisco J. Hidalgo Moreno Podoctorado 08/2016 – 04/2017 Instituto de F´ısica UNAM Publicaciones: 1 en EuroPhysics Letters, 2 en preparacion.´

2015 Giuseppe Pirruccio Podoctorado 03/2015 – 10/2015 Tema de investigacion:´ Plasmonic metal nanoparticles and its application to Tip-enhanced Raman spectroscopy: theory and experiments Publicaciones (1): en ACS Photonics (2018) Situacion´ actual: Investigador Asociado C, IFUNAM

2015 David Becerril Rodr´ıguez Maestr´ıa Posgrado en Ciencias F´ısicas UNAM T´ıtulo de reporte: Adsorbcion´ de SCH3 sobre nanopart´ıculas de plata: dependencia del tamano˜ . Opcion´ por art´ıculo de investigacion.´ Fecha de examen: 23 de enero 2015. Publicaciones(1): J. Phys. Chem C (2015) Situacion´ actual: Estudiante de doctorado PCF-UNAM en el grupo de Cecilia Noguez

2014 Francisco J. Hidalgo Moreno Doctorado Posgrado en Ciencias F´ısicas UNAM. T´ıtulo de tesis: Morfolog´ıa y actividad optica´ en nanopart´ıculas metalicas´ con ligandos. Un estudio de primeros principios. Fecha de examen: 14 de marzo 2014 Publicaciones (5): J. Phys. Chem. Letters (2011), ACS Nano (2013), Nanoscale (2014), Chirality (2014), Nanoscale (2016) Situacion´ actual: Profesor Invitado Titular C, UAM-Azcapotzalco, SNI nivel I

2013 Jir´ı Beranek´ Estancia de Maestr´ıa del Physical Engineering and Nanotechnology Program Brno University of Technology, Czech Republic T´ıtulo de tesis: Surface plasmon resonances on colloidal nanoparticles Estancia: 1 de marzo al 31 septiembre 2012. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 20

Publicaciones(1): J. Phys. Chem. C. (2014) Se graduo´ con el trabajo realizado en Mexico´ bajo mi direccion.´

2012 Al´ı Michel Angulo Mart´ınez Maestr´ıa Posgrado en Ciencias F´ısicas UNAM T´ıtulo de tesis: Intensi€cacion´ del campo electromagnetico´ en nanoestructuras metalicas´ Fecha de examen: 26 septiembre de 2012. Publicaciones (1): J. Phys. Chem. Lett. (2011) Situacion´ actual: estudiante de doctorado en el PCF-UNAM.

2011 Ariadna Sanchez´ Castillo Posdoctorado 09/2008 – 05/2011 Tema de investigacion:´ Actividad optica´ de nanopart´ıculas quirales Publicaciones (4): Eur. Phys. J. D (2009), J. Am. Chem. Soc. (Communication) (2010), J. Phys. Chem. C (2010), J. Phys. Chem. Lett. (2011). Situacion´ actual: Prof. Inv. Titular C, Univ. Autonoma´ de Hidalgo Apan,´ SNI nivel I

2009 Francisco J. Hidalgo Moreno Maestr´ıa Posgrado en Ciencias F´ısicas UNAM. T´ıtulo de tesis: Actividad optica´ de nanopart´ıculas de oro puras y pasivadas Fecha de examen: 19 marzo de 2009. Publicaciones (4): J. Phys. Chem C (2008), Phys. Rev. B (2009), Eur. Phys. J. D (2009), y Physica Status Solidi (b) (2010) Situacion´ actual: Profesor Invitado Titular C, UAM-Azcapotzalco, SNI nivel I

2008 Ariadna Sanchez´ Castillo Doctorado en Ciencias de Materiales, Instituto de F´ısica, Univ. Autonoma´ de Puebla T´ıtulo de tesis: Propiedades Opticas´ de Nanotubos Quirales. Fecha de examen: 16 de junio de 2008. Publicaciones(5): Phys. Rev. B (2006 y 2009), J. Phys. Chem. C(2010) y 2 memorias. Situacion´ actual: Prof. Inv. Titular C, Univ. Autonoma´ de Hidalgo Apan,´ SNI nivel I

2007 Ana Lilia Gonzalez´ Ronquillo Doctorado Posgrado en Ciencias F´ısicas UNAM. 2007 T´ıtulo de tesis: Propiedades opticas´ de nanopart´ıculas metalicas´ Fecha de examen: 17 octubre de 2007. Publicaciones (5): Phys. Chem. B (2005), Nanotech (2006), J. Computational & Theor. Nanoscience (2007), Physica Status Solidi (c) (2007), J. Phys. Chem. C (2008) Premio Weizmann en Ciencias Exactas 2008, Academia Mexicana de Ciencias. Premio a la mejor tesis doctoral en el area´ de Ciencia e Ingenier´ıa de Materiales del certamen IIM-UNAM 2008 Situacion´ actual: Porfesora-Investigadora Titular B, IF-BUAP, SNI nivel I

2007 Al´ı Michel Angulo Mart´ınez Licenciatura en F´ısica Facultad de Ciencias, UNAM T´ıtulo de tesis: Estructura atomica´ y morfolog´ıa de nanopart´ıculas de plata Fecha de examen: 17 de agosto de 2007. Publicaciones(1): J. Phys. Chem. A (2008) Situacion´ actual: estudiante de doctorado en el PCF-UNAM.

2005X ochitl´ Lopez´ Lozano Doctorado en Ciencias F´ısica, Instituto de F´ısica, Univ. Autonoma´ de Puebla T´ıtulo de tesis: Propiedades electronicas´ y opticas´ de la super€cie InAs(110) y de los alambres atomicos´ de In/Si(111). 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 21

Fecha de examen: 22 de julio 2005. Publicaciones (6): Phys. Status Soilidi (c) (2003), Rev. Mex. de F´ıs. (2005), Phys. Rev. B (2005 y 2006), 2 memorias Premio a la mejor tesis doctoral en el area´ de Ciencia e Ingenier´ıa de Materiales del certamen IIM-UNAM 2006 Situacion´ actual: Associate Professor en la Universidad de Texas en San Antonio, EUA, Nivel I del SNI La Dra. Lilia Meza Montes del IF de la BUAP fungio´ como asesora interna.

2005 Guillermo P. Ortiz Fernandez´ Posdoctorado 06/2004 – 06/2005 Asesor´ıa durante su estancia de posdoctoral con Ruben´ G. Barrera Tema de investigacion:´ Propiedades opticas´ de nanopart´ıculas metalicas´ en funcion´ de su morfolog´ıa Publicaciones (1): J. Phys. Chem. B (2005) Situacion´ actual: Professor en la Univ Nacl Nordeste, Dept Fis, Fac Ciencias Exactas Nat & Agrimensura, Corrientes, Argentina (en 2005 fue SNI nivel I)

2005 Carlos Enrique Roman´ Velazquez´ Posdoctorado 01/2003 – 10/2005 Tema de investigacion:´ Fuerzas de Casimir y Dicro´ısmo Circular Publicaciones (9): J. Phys. Chem. B (Letter) (2003), Phys. Rev. A (2004), Phys. Rev. B (2004, 2006 y 2006), EuroPhysics Letters (2004), J. Phys. A (2006) y 2 memorias (2003 y 2004) Situacion´ actual: Profesor de Asignatura en FC-UNAM (entre 2000 y 2006 fue SNI nivel I).

2004 Geonel Rodr´ıguez Gattorno Podoctorado 06/2004 – 12/2004 Tema de investigacion:´ S´ıntesis, microscop´ıa y propiedades opticas´ de nanopart´ıculas de plata Publicaciones(1): J. Phys. Chem. B (2005) Situacion´ actual: Investigador 3A del CINVESTAV, Merida,´ SNI nivel II

2004 Ana Lilia Gonzalez´ Ronquillo Maestr´ıa Posgrado en Ciencias F´ısicas UNAM. T´ıtulo tesina: Propiedades opticas´ de nanopart´ıculas metalicas´ . Fecha de examen: Examen General de Conocimientos: enero 2004. Fecha de examen: de candidatura, diciembre 2004.

2003 Ivan´ Orencio Sosa Perez´ Maestr´ıa Posgrado en Ciencias F´ısicas UNAM T´ıtulo de tesis: Propiedades opticas´ de nanopart´ıculas de formas arbitrarias. Fecha de examen: 28 de enero de 2003. Publicaciones (2): J. of Physical Chemistry B (2003), 1 memoria Situacion´ actual: Profesor de TC de la Universidad de la Ciudad de Mexico´ Codireccion´ con Ruben´ G. Barrera, IFUNAM

2002 Alejandro Valderrama Zaldivar Licenciatura en l F´ısica Facultad de Ciencias, UNAM T´ıtulo de tesis: Pruebas de polarizacion´ en nanotubos simulados con y sin quiralidad Fecha de examen: 4 de octubre de 2002

2000 Mart´ın Sol´ıs Perez´ Licenciatura en F´ısica Facultad de Ciencias, UNAM T´ıtulo de tesis: Calculos´ de estructura electronica´ de la super€cie de germanio reconstruida en su cara (111) Fecha de examen: 13 de julio de 2000 Publicaciones (1): Revista Cient´ı€ca TIP (2000) 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 22

1999 Carlos Enrique Roman´ Velazquez´ Doctorado en Ciencias de Materiales, CISECE T´ıtulo de tesis: Calculo´ del tensor dielectrico´ efectivo en medios anisotropicos´ granulados. Fecha de examen: 21 de septiembre de 1999. Publicaciones (4): phys. status solidi (a) (1999), Physical Review B (2000) y Physica B (2000), 1 memoria. Situacion´ actual: Profesor de Asignatura en FC-UNAM (en 2000 y 2006 fue SNI nivel I). Codireccion´ con Ruben´ G. Barrera IFUNAM

– En proceso (3)

2016 Cercis Morera Boado 2015 David Becerril Rodr´ıguez Podoctorado 10/2016 – vigente Doctorado 04/2016 – vigente Instituto de F´ısica UNAM Instituto de F´ısica, Posgrado en Ciencias F´ısicas UNAM Publicaciones: EuroPhysics L:etters, 1 en preparacion´ (50 % de avance) Examen de candidatura: 28 de agosto 2017 Publicaciones: ACS Photonics, 1 en preparacion´ 2016 Francisco Sanchez´ Ochoa Fecha tentativa de examen: enero 2019 Podoctorado 08/2016 – vigente Instituto de F´ısica UNAM Publicaciones: 1 en preparacion´

Participacion´ en examenes´ de grado como sinodal (38)

1. Carlos Ignacio Mendoza Ruiz 8. Samuel E. Baltazar Rojas Examen´ de grado: Doctor en Ciencias, Facultad de Examen´ de grado: Maestr´ıa en Ciencias Aplicadas, Ciencias, UNAM, 1999. IPICYT, 9 de julio de 2004. 2. Susana Orozco 9. Luis Enrique D´ıaz Sanchez´ Examen´ de grado: Doctora en Ciencias, Facultad de Examen´ de grado: Maestr´ıa en Ciencias F´ısica, Posgra- Ciencias, UNAM, 1999. do en Ciencias F´ısicas, UNAM, 8 de febrero del 2005. 3. Catalina Lopez´ Bastidas 10. Jose´ Luis Cardoso Cortes´ Examen´ de grado: Doctora en Ciencias, Facultad de Examen´ de grado: Doctor en Ciencias F´ısica, Posgrado Ciencias, UAE Morelos, 2000. en Ciencias F´ısicas, UNAM, 14 de febrero del 2005. 4. Jose Antonio Sanchez´ Mondragon´ 11. Amparo Elizabeth Cano Basave Examen´ de grado: Maestro en Ciencias, Facultad de Examen´ de grado: Licenciatura en F´ısica, Facultad de Ciencias, UNAM, 2001. Ciencias, UNAM, noviembre 2005. 5. Jorge Alejandro Reyes Esqueda 12. Mar´ıa Andrea Gutierrez´ Campos Examen´ de grado: Doctor en Ciencias, Facultad de Candidatura: Doctor en Ciencias F´ısica Posgrado en Ciencias, UNAM, 2001. Ciencias F´ısicas, UNAM, 6 de julio del 2006. 6. Jorge Enrique Mej´ıa Sanchez´ 13. Amador Bautista Examen´ de grado: Doctor en Ciencias, Centro de In- Examen´ de grado: Licenciatura en F´ısica, Facultad de vestigaciones en Optica (CIO), 2001. Ciencias, UNAM, agosto 2006. 7. Marco Antonio Iglesias 14. Jorge Am´ın Seman H. Examen´ de grado: Licenciatura en F´ısica, Facultad de Examen´ de grado: Licenciatura en F´ısica, Facultad de Ciencias, UNAM, febrero 2004. Ciencias, UNAM, septiembre 2006. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 23

15. Laura Elena Rosales Zarate 27. Jose´ Concepcion´ Torres Guzman´ Candidatura: Doctor en Ciencias F´ısica, Posgrado en Examen´ de grado: Doctor en Ciencias (F´ısica), Univ. Ciencias F´ısicas, UNAM, 14 de noviembre del 2006. Autonoma´ del Estado de Morelos, noviembre, 2010

16. Giacomo Bonfanti Escalera 28. Daniel Cruz Delgado Seminario de titulacion:´ Ingenier´ıa F´ısica, Universidad Examen´ de grado: Maestro en Ciencia (F´ısica), Posgra- Iberoamericana, 7 de diciembre del 2006. do en Ciencia F´ısicas, UNAM, 10 de septiembre 2012.

17. Edah´ı Gut´ıerrez Reyes 29. Gustavo Roberto Perez´ Lemus Candidatura: Doctor en Ciencias F´ısica, Posgrado en Examen´ de grado: Licenciatura en F´ısica, Facultad de Ciencias F´ısicas, UNAM, 17 de mayo del 2007. Ciencias, UNAM, 12 febrero 2013.

18.H ector´ Gabriel Silva Pereyra 30. Sergio Alberto Sabinas Hernandez´ Candidatura: Doctor en Ciencias F´ısica, Posgrado en Candidatura: Doctor en Ciencias F´ısicas, Posgrado en Ciencias F´ısicas, UNAM, 26 de junio del 2007. Ciencias e Ingenier´ıa de Materiales, UNAM, Instituto de F´ısica, UNAM, 20 de noviembre 2014. 19. Alfredo Augusto Guevara Garc´ıa Examen´ de grado: Doctor en Ciencias Qu´ımicas, Pos- 31. Jesus´ Castrejon´ Figueroa grado en Ciencias Qu´ımicas, UNAM, 10 de agosto del Examen´ de grado: Licenciatura en F´ısica, Facultad de 2007. Ciencias, UNAM, enero 2015.

20. Lirio Euridice Aparicio Servin 32. Jose´ Angel´ Castellanos Reyes Candidatura: Doctor en Ciencias F´ısica, Posgrado en Examen´ de grado: Licenciatura en F´ısica, Facultad de Ciencias F´ısicas, UNAM, 31 de julio del 2007. Ciencias, UNAM, agosto 2015.

21. Ariadna Blanca Romero 33. Jonathan Guerrero Sanchez´ Candidatura: Doctor en Ciencias F´ısica, Posgrado en Examen´ de grado: Doctor, Posgrado en Ciencia e Ciencias F´ısicas, UNAM, 2 de agosto del 2007. Ingenier´ıa de Materiales, Instituto de F´ısica, BUAP, noviembre 2015 22. Flavio Fernando Contreras Torres Examen´ de grado: Doctor en Ciencias Qu´ımicas, Pos- grado en Ciencias Qu´ımicas, UNAM, 10 de septiembre 34. Ulises Torres Herrera del 2007. Candidatura: Doctor , Posgrado en Ciencias Qu´ımicas, UNAM, Fc. Qu´ımicas, UNAM, 26 de mayo 2016. 23. Daniel J Ross Examen´ de grado: Doctor en F´ısica (Ph. D.) Departa- 35. Selene Rub´ı Islas Sanchez´ mento de F´ısica, Universidad de Windsor, Ontario Ca- Examen´ de grado: Doctor, Posgrado en Ciencias nada, 13 de Marzo de 2009. Qu´ımicas, UNAM, Fc. Qu´ımicas, UNAM, 2016.

24. Orlando Hernandez´ Cristobal 36. Carlos Alberto Ramrez´ Medina Candidatura: Doctor en Ciencia e Ingenier´ıa de mate- Protocolo: Doctorado, Posgrado en Ciencias F´ısicas, riales, Posgrado en Ciencia e Ingenier´ıa de materiales, UNAM, Instituto de F´ısica, UNAM, 20 de noviembre UNAM, 14 de mayo del 2009. 2016.

25. Roberto Mej´ıa Olvera 37. Omar Wilfrido Vazquez´ Estrada Examen´ de grado: Maestro en Ciencia e Ingenier´ıa de Examen´ de grado: Doctorado, Posgrado en Ingenier´ıa, materiales, Posgrado en Ciencia e Ingenier´ıa de ma- UNAM, Centro de Ciencias Aplicadas y Desarrollo Tec- teriales, UNAM, en revision´ 2009. nologico,´ UNAM, 20 de junio 2017.

26. Adair Chavez´ Roveglia 38. Noralvis Fleitas Salazar Examen´ de grado: Licenciatura en F´ısica, Facultad de Examen´ de grado: Doctorado, Posgrado en Ciencias Ciencias, UNAM, noviembre 2010. (F´ısica), Universidad de Sonora, 16 de noviembre 2017. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 24

Participacion´ en examenes´ generales y predoctorales (6)

39. Jorge Fernando Camacho Perez´ 42. Predoctoral de Electrodinamica´ Clasica´ Examen General de Conocimientos presentaron examen 8 estudiantes Junio 1998. Facultad de Ciencias, UNAM. Enero de 2003.

40. Jorge Fernando Camacho Perez´ 43. Predoctoral de Electrodinamica´ Clasica´ Examen General de Conocimientos presentaron examen 10 estudiantes Enero 1999. Facultad de Ciencias, UNAM. Julio de 2004.

41. Comite´ del examen de diagnostico´ para ingresar al 44. Predoctoral de Electrodinamica´ Clasica´ Posgrado en Ciencias F´ısicas de la UNAM (1999). presentaron examen 15 estudiantes Se examinaron 14 alumnos. Enero de 2009.

PRODUCCION´ CIENT´IFICA (96)

Tabla de publicaciones

REVISTA EN # FACTOR DE 1er AUTOR CON ESTUDIANTES POR JOURNAL OF CITATION REPORT (JCR) ART´ICULOS IMPACTO∗ O UNICO´ Y/O POSDOCS INVITACION´ Nature Nanotechnology 1 35.267 Chemical Society Reviews 1 33.383 1 1 ACS Nano 1 13.334 1 Journal American Chemical Society 1 13.038 1 Journal of Physical Chemistry Letters 2 8.539 1 2 1 Nanoscale 2 7.760 2 Physical Review Letters 1 7.645 1 ACS Photonics 1 6.756 1 Journal of Materials Chemistry C 1 5.066 Journal of Physical Chemistry C 8 4.509 1 5 1 Physical Review B 14 3.718 5 7 Journal of Physical Chemistry B 3 3.187 3 Applied Surface Science 1 3.150 Optics Express 1 3.148 Journal of Chemical Physics 2 2.894 Journal of Physical Chemistry A 2 2.883 1 1 Physical Review A 1 2.765 1 EuroPhysics Letters (EPL) 2 2.229 1 2 1 Optical Materials 1 2.183 1 1 Plasmonics 1 2.146 1 Superlattices and Microstructures 1 2.117 1 Journal of Applied Physics 1 2.101 Chirality 1 2.025 1 1 Journal of Physics A 1 1.933 Surface Science 2 1.931 2 Physica A 1 1.785 1 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 25

REVISTA EN # FACTOR DE 1er AUTOR CON ESTUDIANTES POR JOURNAL OF CITATION REPORT (JCR) ART´ICULOS IMPACTO∗ O UNICO´ Y/O POSDOCS INVITACION´ J. Comp. & Theo. Nanoscience 1 1.666 1 1 Physica Status Solidi (a) 2 1.648 1 1 Physica Status Solidi (b) 3 1.522 1 1 1 Physica B 1 1.352 1 European Physical Journal D 2 1.208 1 Revista Mexicana de F´ısica 1 0.371 1 SUBTOTAL 64 †4.714 18 339

NO JCR Physica Status Solidi (c) 2 2 Il Vuoto 1 1 TIP Revista Esp. C. Qu´ımicas-Biologicas´ 2 1 1 1 SUBTOTAL5231

MEMORIAS Y CAP´ITULOS MRS Symposium Proceedings 7 2 4 Memorias en extenso con arbitraje 5 2 2 Memorias en espanol˜ en extenso con arbitraje 6 4 Cap´ıtulos en Libros 6 6 6 Divulgacion´ 3 2 2 SUBTOTAL 27 11 108

TOTAL 96 †4.721 31 46 18

∗Tomados del Science Citation Index (SCI) Journal Citation Reports 2015. †Factor de impacto promedio.

Portadas

(1) (2) (3)

(1) Art´ıculo [67] Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 – 3819 (2007) 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 26

(4) (5)

(2) Art´ıculo [32] Physica Status Soildi (c) 4 (11), 4118 – 4126 (2007) (3) Art´ıculo [82] Journal of Physical Chemistry Letters 2 1038 – 1044 (2011) (4) Cap´ıtulo [27] libro Complex-Shaped Metal Nanoparticles: Bottom-Up Syntheses and Applications, (2012) (5) Art´ıculo [90] Physica Status Solidi b 252 56–71 (2015)

Lista de publicaciones

Los trabajos con estudiantes y posdocs bajo mi direccion´ durante su formacion´ se muestran sus nombres con letras gruesas

– Revistas indizadas JCR con estricto arbitraje

96. Ecient coupling to plasmonic multipole resonances by using a multipolar incident €eld, Becerril, David; Batiz, Humberto; Pirruccio, Giuseppe; & Cecilia Noguez ACS Photonics xxx (xx), pp. xxx (2018); 95. On the stability of noble-metal nanoclusters protected with thiolate ligands, Cercis Morera-Boado, Francisco Hidalgo & Cecilia Noguez EPL (Europhysics Letters) 119 (5), pp. 56002 (2017); DOI: 10.1209/0295-5075/119/56002 94. How to Control Optical Activity in Organic-Silver Hybrid Nanoparticles, Francisco Hidalgo & Cecilia Noguez Nanoscale 8 (30), pp. 14457-14466 (2016); DOI: 10.1039/C6NR02372J 93. Chiral Atomically Thin Films, Cheol-Joo Kim, A. Sanchez-Castillo,´ Zack Ziegler, Yui Ogawa, Cecilia Noguez, & Jiwoong Park Nature Nanotechnology 11, 520–524 (2016); doi:10.1038/nnano.2016.3 92. Plasmonic Response of Nested Nanoparticles with Arbitrary Geometry, Rafael D´ıaz, Raul Esquivel-Sirvent & Cecilia Noguez Journal of Physical Chemistry C 120 (4), pp 2349–2354 (2016); DOI: 10.1021/acs.jpcc.5b10109 91. Adsorption of a Methylthio Radical on Silver Nanoparticles: Size Dependence, David Becerril & Cecilia Noguez Journal of Physical Chemistry C 119 (20), pp 10824–10835 (2015); DOI: 10.1021/jp509727q 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 27

90. Plasmonics of multifaceted metallic nanoparticles, €eld enhancement and TERS, Cecilia Noguez, C.J. Villagomez´ & A.L. Gonzalez´ Physica Status Solidi B 252, 56–71 (2015) – Al art´ıculo le dieron la portada del numero´ de la revista –

89. Ab initio electronic circular dichroism of fullerenes, single-walled carbon nanotubes and ligand-protected metal nano- particles, Cecilia Noguez& Francisco Hidalgo Chirality 26 (9), 553 –562 (2014)

88. Size, Shape, Stability and Color of Plasmonic Silver Nanoparticles, Ana Gonzalez,´ Cecilia Noguez, Jiri Beranek, Amanda Barnard Journal of Physical Chemistry C 118 (17), pp 9128–9136 (2014).

87. Metallic inƒuence on the atomic structure and optical activity of ligand-protected nanoparticles: a comparison between Ag and Au, Francisco Hidalgo, Cecilia Noguez & M. Olvera de la Cruz Nanoscale 6 (6), 3325 - 3334 (2014) DOI: 10.1039/C3NR06202C

86. Mapping the Structural and Optical Properties of Anisotropic Gold Nanoparticles, Ana L. Gonzalez, Cecilia Noguez & Amanda S. Barnard Journal of Materials Chemistry C 1(18), 3150 - 3157 (2013)

85. Optical Activity of Achiral Ligand SCH3 Adsorbed on Achiral Ag55 Clusters: Relationship between Adsorption Site and Circular Dichroism, Francisco Hidalgo & Cecilia Noguez ACS Nano 7, 513 – 521 (2013) DOI: 10.1021/nn3046083

84. Map of the Structural and Optical Properties of Gold Nanoparticles at Thermal Equilibrium, Ana L. Gonzalez, Cecilia Noguez & Amanda S. Barnard Journal of Physical Chemistry C 116, 14170 –14175 (2012)

83. Electromagnetic Field Enhancement at the Edge of Metal Nanostructures, Ali Angulo, Cecilia Noguez & George C. Schatz Journal of Physical Chemistry Letters 2, 1978–1983 (2011)

82. The Role of Morphology in the Enhanced Optical Activity of Ligand-Protected Metal Nanoparticles, Cecilia Noguez, Ariadna Sanchez-Castillo´ & Francisco Hidalgo Art´ıculo por invitacion´ en Journal of Physical Chemistry Letters 2 1038 – 1044 (2011). – Al art´ıculo le dieron la portada del numero´ de la revista –

81. Designing the plasmonic response of shell nanoparticles: spectral representation, Carlos E. Roman-Vel´ azquez´ & Cecilia Noguez Journal of Chemical Physics 114(4), 044116-1 – 044116-14 (2011). – Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 23, February 7, 2011 published by the American Institute of Physics and the American Physical Society –

80. Understanding optical activity in single-wall carbon nanotubes from €rst-principles studies Ariadna Sanchez-Castillo´ & Cecilia Noguez Journal of Physical Chemistry C114(21), 9640 – 9644 (2010) 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 28

79. On the origin of the optical activity displayed by chiral-ligand-protected metallic nanoclusters, Ariadna Sanchez-Castillo´ , Cecilia Noguez & Ignacio L. Garzon´ Journal of the American Chemical Society (Communication) 132, 1504–1505 (2010).

78. Optically active nanoparticles: fullerenes, carbon nanotubes, and metal nanoparticles Francisco Hidalgo & Cecilia Noguez Physica Status Solidi B. 247, 1889–1897 (2010).

77. Ecient First-Principles Method for Circular Dichroism of Nanostructures, Francisco Hidalgo, Ariadna Sanchez-Castillo´ & Cecilia Noguez, Physical Review B 79, 075438 (2009). – Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 19, March 9, 2009 published by the American Institute of Physics and the American Physical Society –

76. Theoretical Study of Surface Plasmon Resonances in Hollow Gold-Silver Double-shell Nanostructures, Carlos E. Roman-Vel´ zquez,´ Cecilia Noguez & Jin Z. Zhang Art´ıculo por invitacion:´ Journal of Physical Chemistry A 113 4068 – 4074 (2009).

75. First-principles calculations of circular dichroism of bare and ligand-protected gold nanoparticles, Francisco Hidalgo, Ariadna Sanchez-Castillo´ , Ignacio L. Garzon´ & Cecilia Noguez, Eur. Phys. J. D 52, 179 – 182 (2009).

74. Optically active nanoparticles, Cecilia Noguez & Ignacio L. Garzon.´ Art´ıculo por invitacion:´ Chemical Society Reviews 38, 757 – 771 (2009).

− 73. Intrinsic Chirality in Bare Gold Nanoclusters: The Au34 case, Itzel E. Santizo, Francisco Hidalgo, Luis A. Perez,´ Cecilia Noguez, & Ignacio L. Garzon,´ Journal of Physical Chemistry C 112, 17533 – 17539 (2008)

72. Plasmonic Optical Properties and Applications of Metal Nanostructures, Jin Z. Zhang & Cecilia Noguez Art´ıculo por invitacion:´ Plasmonics 4, 127 – 150 (2008).

71. Atomic structure of small and intermediate size silver nanoclusters, Ali M. Angulo & Cecilia Noguez Journal of Physical Chemistry A 112, 5834 – 5838 (2008).

70. Optical properties of elongated noble metal nanoparticles, Ana L. Gonzalez´ , J. A. Reyes-Esqueda, & Cecilia Noguez Journal of Physical Chemistry C 112, 7356 – 7362 (2008).

69. Large optical birefringence by anisotropic silver nanocomposites, J. A. Reyes-Esqueda, C. Torres-Torres, J. C. Cheang-Wong, A. Crespo-Sosa, L. Rodr´ıguez-Fernandez,´ Cecilia Noguez,A. Oliver, Optics Express 16, 710 – 717 (2008).

68. Inƒuence of Morphology on the Optical Properties of Metal Nanoparticles Ana L. Gonzalez´ & Cecilia Noguez Art´ıculo por invitacion:´ J. Computational & Theoretical Nanoscience 4, 231 — 238 (2007). 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 29

67. Surface Plasmons on Metal Nanoparticles: The Inƒuence of Shape and Physical Environment Cecilia Noguez Art´ıculo por invitacion:´ Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 – 3819 (2007). – Al art´ıculo le dieron la portada del numero´ de la revista –

66. The role of geometry on dispersive forces Carlos E. Roman-Vel´ azquez´ & Cecilia Noguez Journal of Physics A: Mathematical and General 39, 6695 – 6701 (2006).

65. Optical circular dichroism of single-wall carbon nanotubes Ariadna Sanchez-Castillo,´ Carlos E. Roman´ Velazquez´ ,& Cecilia Noguez Physical Review B 73 045401 (2006). – Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 13, January 16, 2006 published by the American Institute of Physics and the American Physical Society –

64. Reconstruction of quasi-1D In/Si(111) systems: Charge and spin density waves versus bonding Xochitl Lopez-Lozano´ , A. Krivosheeva, A. Stekolnikov, L. Meza-Montes, Cecilia Noguez, J. Furtmueller, and F. Bechstedt Physical Review B 73, 035430 (2006). – Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 13, February 6, 2006 published by the American Institute of Physics and the American Physical Society –

63. Controlled Anisotropic Deformation of Ag Nanoparticles by Si Ion Irradiation A. Oliver, J. A. Reyes-Esqueda, J. C. Cheang-Wong, C. E. Roman-Vel´ azquez,´ A. Crespo-Sosa, L. Rodr´ıguez-Fernandez,´ J. A. Seman, Cecilia Noguez Physical Review B 74, 245425 (2006).

62. Optical Absorbance of Colloidal Suspensions of Silver Polyhedral Nanoparticles, Ana L. Gonzalez´ , Cecilia Noguez, Guillermo P. Ortiz, Geonel Rodr´ıguez-Gattorno; Journal of Physical Chemistry B 109 17512 – 17517 (2005).

61. Electronic structure and Reƒectance Anisotropy spectrum of InAs(110), Xochitl Lopez´ Lozano, O. Pulci, Cecilia Noguez, K. Fleischer, W. Richter and R. Del Sole. Physical Review B 71, 125337 (2005).

60. Optical Properties of Isolated and Supported Metal Nanoparticles, Cecilia Noguez, Art´ıculo por invitacion´ en: Optical Materials 27, 1204 – 1211 (2005).

59. Electronic and optical properties of InAs(110), Xochitl Lopez´ Lozano, Cecilia Noguez & Lilia Meza-Montes. Revista Mexicana de F´ısica 51 168 – 175 (2005).

58. Dispersive force between dissimilar materials: Geometrical e‚ects, Cecilia Noguez, Carlos E. Roman-Vel´ azquez´ Physical Review B 70, 195412 (2004).

57. High-multipolar e‚ects on the Casimir force: the non-retarded limit, Cecilia Noguez, Carlos E. Roman-Vel´ azquez´ , C. Villarreal & R. Esquivel-Sirvent, Europhysics Letters 67, 191 – 197 (2004).

56. Spectral Representation of the Casimir Force Between a Sphere and a Substrate, Carlos E. Roman-Vel´ azquez´ , Cecilia Noguez, C. Villarreal & R. Esquivel-Sirvent, Physical Review A 69, 042109 (2004). 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 30

55. Circular dichroism simulated spectra of chiral gold nanoclusters: A dipole approximation Carlos E. Roman-Vel´ azquez´ , Cecilia Noguez, and I.L. Garzon,´ Journal of Physical Chemistry B (Letter) 107, 12035 – 12038 (2003).

54. Optical Properties of Metal Nanoparticles with Arbitrary Shapes, Ivan´ O. Sosa, Cecilia Noguez, and Ruben´ G. Barrera Journal of Physical Chemistry B 107, 6269 – 6275 (2003).

53. Origin of optical anisotropies of nonpolar GaN surfaces, Cecilia Noguez, Physical Review B, 62, 2681 – 2685 (2000).

52. Substrate e‚ects on the optical properties of a spheroidal nanoparticle, Carlos E. Roman´ , Cecilia Noguez, Ruben´ G. Barrera Physical Review B, 61, 10427 – 10436 (2000).

51. Multipolar plasma resonances in supported alkali-metal nanoparticles, C. Beitia, Y. Borensztein, Ruben´ G. Barrera, Carlos E. Roman´ , Cecilia Noguez Physica B 279, 25 – 28 (2000).

50. Optical properties of a spheroid-substrate system Carlos E. Roman-Velazquez´ , Cecilia Noguez, Ruben´ G. Barrera Physica Status Solidi (a) 175, 393 (1999).

49. Electron energy-loss spectra of non-polar GaN surfaces Cecilia Noguez, Physica Status Solidi (a) 175, 57 (1999).

48. Spectroscopic theoretical study of the atomic reconstruction of GaN (1010) Cecilia Noguez, Physical Review B 58, 12641 – 12644 (1998).

47. Electron energy loss for anisotropic systems: application to GaN (1010) R. Esquivel-Sirvent, and Cecilia Noguez, Physical Review B 58, 7367 – 7372 (1998).

46. Multipolar and disorder e‚ects on the e‚ective dielectric properties of granular composites, Cecilia Noguez, and Ruben´ G. Barrera, Physical Review B 57, 302 – 313 (1998).

45. First-principles calculations of optical properties: application to silicon clusters Cecilia Noguez, and S.E. Ulloa, Physical Review B 56, 9719 – 9725 (1997).

44. Theory of the acoustic signature of topological and morphological defects in SiC/ porous SiC laminated ceramics, R. Esquivel-Sirvent and Cecilia Noguez, Journal of Applied Physics 82, 3618 – 3620 (1997).

43. First-principles studies of hydrogenated Si(111) − 7 × 7, D.R. Alfonso, Cecilia Noguez, D.A. Drabold, and S.E. Ulloa, Physical Review B 54, 8028 – 8032 (1996). 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 31

42. Size dependence of the optical properties of silicon clusters, Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold, and S.H. Yang, Superlattices & Microstructures 20, 405 – 410 (1996). 41. Theoretical and experimental optical spectroscopy study of hydrogen adsorption at Si(111) − 7 × 7, Cecilia Noguez, C. Beitia, W. Preyss, A.I. Shkrebtii, M. Roy, Y. Borensztein, and R. Del Sole, Physical Review Letters 76, 4923 – 4926 (1996). 40. Anisotropic optical response of the diamond (111) − 2 × 1 surface, Cecilia Noguez, and S.E. Ulloa, Physical Review B 53, 13138 – 13145, (1996). 39. Optical spectroscopy study of hydrogenation of the Si(111) − 7 × 7 surface, M. Roy, C. Beitia, Y. Borensztein, A.I. Shkrebtii, Cecilia Noguez, and R. Del Sole, Applied Surface Science, 104/105, 158 – 162 (1996). 38. Microscopic theory of electron transitions at Si(111) − 7 × 7: optical properties and energy-loss spectra, Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole, Surface Science 331 – 333, 1349 – 1354, (1995). 37. Disorder e‚ects on the e‚ective dielectric response of a linear chain of polarizable spheres, Cecilia Noguez, and Ruben´ G. Barrera, Physica A, 211 (4), 399 –410 (1994). 36. Model approach to the calculation of the Si(111) − 7 × 7 optical properties, Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole, Surface Science 318, 342 – 348, (1994). 35. A new diagrammatic summation for the e‚ective dielectric response of composites, R. G. Barrera, Cecilia Noguez, and E. V. Anda, Journal of Chemical Physics 96 (2), 1574 – 1581, (1992).

Notas editoriales en revistas indizadas JCR (2)

34. Optics of Surfaces and Interfaces, Cecilia Noguez, Bernardo mendoza, Raul Esquivel-Sirvent Physica Status Solidi (b) 249 1091 – 1091 (2012). 33. ISSPIC XV - 15th international symposium on small particles and inorganic clusters, Garzon Ignacio L.; Perez Luis A.; Diaz Gabriela, Cecilia Noguez, European Physical Journal D 63 169 – 169 (2011).

– Art´ıculos en revistas internacionales con estricto refereo no JCR

32. Optical Properties of Silver Nanoparticles, (35 citas) Ana L. Gonzalez´ , Cecilia Noguez Physica Status Soildi (c) 4 (11), 4118 – 4126 (2007). – Al art´ıculo le dieron la portada del numero´ de la revista – 31. Optical properties of the cleavage InAs(110) surface, (2 citas) Xochitl Lopez-Lozano´ , Cecilia Noguez, L. Meza-Montes, Physica Status Solidi (c), 0, 2992 – 2996 (2003). 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 32

– Art´ıculos en revistas de circulacion´ local con arbitraje no JCR

30. Propiedades electronicas´ de la super€cie de Germanio (111) reconstruida 2 × 1, Mart´ın Sol´ıs & Cecilia Noguez, Art´ıculo por invitacion´ en: TIP Revista Especializada en Ciencias Qu´ımico-Biologicas,´ 3(1): 48 – 59 (2000).

29. Propiedades Viscoelasticas´ de Suspensiones Coloidales, R. Esquivel. G. Ram´ırez-Santiago & Cecilia Noguez, Art´ıculo por invitacion´ en: TIP Revista Especializada en Ciencias Qu´ımico-Biologicas,´ 3(1): 14 – 22 (2000).

28. Calculation of the optical properties for the Si(111)-DAS model: 3 × 3 reconstruction, Cecilia Noguez, A.I. Shkrebtii & R. Del Sole, Il Vuoto 24, 43 – 45 (1995).

– Cap´ıtulos en libros

Circulacion´ internacional

27. Chapter 11: Localized Surface Plasmons of Multifaceted Metal Nanoparticles in Complex-Shaped Metal Nanoparticles: Bottom-Up Syntheses and Applications, Cecilia Noguez, Ana L. Gonzalez.´ (eds T. K. Sau and A. L. Rogach), Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany. paginas´ 361 – 393 (Junio 2012). doi: 10.1002/9783527652570.ch11 – Al cap´ıtulo le dieron la portada del libro –

26. Quantum mechanical calculations of electronic and optical properties of semiconductor surfaces, Cecilia Noguez, and Olivia Pulci, “Quantum Chemical Calculations of Surfaces and Interfaces of Materials”, pages 217 –248, Editors: V. A. Basiuk and P. Ugliengo, American Scienti€c Publishers (2009). Circulacion´ nacional

25. Cuando el futuro de la nanotecnolog´ıa nos alcance, Cecilia Noguez, Grandes Retos del siglo XXI volumen 1, pag. 81 –92, editor H. Vasconselos, Universidad Nacional Autonoma´ de Mexico,´ Mexico´ D.F. 2014

24.F ´ısica a escala nanometrica´ en Perspectivas de la F´ısica para el Siglo XXI, Cecilia Noguez. (eds O. Miramontes y K. Volke), CopIt-arXives 2012, Mexico´ DF, ISBN 978-0-9831172-9-2. paginas´ totales 18 (2012).

23. Propiedades opticas´ de nanopart´ıculas metalicas´ , Cecilia Noguez, en Nanoestructuras, editado por la Sociedad Mexicana de Cristalograf´ıa, pags. 91 – 119 (2004).

22.F ´ısica de nanoestructuras: caracterizacion´ y propiedades opticas´ , Cecilia Noguez, X Escuela de verano ”La vision´ molecular de la materia”, Editores J. Recamier y R. Jauregui,´ pags. 147 – 160 (2002). 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 33

– Memorias en extenso con arbitraje de circulacion´ internacional

21. Surface Plasmon Resonances of Metal Polyhedral Nanoparticles Ana L. Gonzalez´ , Cecilia Noguez, NSTI – Nanotech 2006 1, 423 – 426 (2006).

20. Casimir force between a sphere and a plane: spectral representation formalism, Cecilia Noguez, Carlos E. Roman-Vel´ azquez´ , en las memorias de “Quantum Field Theory Under the Inƒuence of External Conditions”, pags. 97 – 103, Rinton Press, Ed. por K. A. Milton (2004).

19. Casimir forces between nanoparticles and substrates Carlos Roman-Vel´ azquez,´ Cecilia Noguez, C. Villarreal & R. Esquivel-Sirvent. MRS Proceedings Volume 738, pag. G7.35.1 – G7.35.6 (2003).

18. Light scattering by isolated nanoparticles with arbitrary shapes, Cecilia Noguez, Ivan´ Sosa, Ruben´ G. Barrera. 2001 FALL MEETING PROCEEDINGS, Symposium W Nanoparticulate Materials, Editors: R.K. Singh, R. Partch, M. Muham- med, M. Senna, H. Hofmann, MRS Proceedings Volume 704, pag. 275 – 280 (2002).

17. Casimir Forces between thermally activated nanocomposites Raul´ Esquivel-Sirvent, C. Villarreal, Cecilia Noguez, 2001 FALL MEETING PROCEEDINGS, Symposium V Nanophase and Nanocomposite Materials IV, Editors: S. Komarneni, R.A. Vaia, G.Q. Lu, J-I. Matsushita, J.C. Parker, MRS Proceedings Volume 703, pag. 99 – 104 (2002).

16. Optical Characterization of a Spheroidal Nanoparticle on a Substrate, Carlos E. Roman-Vel´ azquez´ , Cecilia Noguez, R.G. Barrera, MRS Symposium Proceedings Vol. 581, 485 – 490 (2000); Nanophase and Nanocomposite Materials III, Editores: S. Komarneni, J.C. Parker, H. Hahn.

15. Acoustic signature of defects of SiC/porous SiC laminated ceramics, R. Esquivel-Sirvent, Cecilia Noguez, MRS Symposium Proceedings Vol. 458, 397 – 402 (1997); editado por C. Briant, B. Carter and E. Hall.

14. Optical signature of the GaN(1010) surface, Cecilia Noguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and D.A. Drabold, MRS Symposium Proceedings Vol. 449, pp. 911 – 916, (1997); editado por F.A. Ponce, T.D. Moustakas, I. Akasaki, B.A. Monemar.

13. Microscopic theory of the optical properties of Si(111) − 7 × 7, Cecilia Noguez, A.I. Shkrebtii &R. Del Sole, 22nd International Conference on the Physics of Semiconductors. 1995. p. 451 – 454 vol.1. Vancouver, BC, Canada. 15-19 Aug. 1994. vol.1. Publisher World Scienti€c Singapore, 1995.

12. Dielectric response of a chain of disordered polarizable spheres: numerical simulation and theory, Pedro Villasenor-Gonz˜ alez,´ Cecilia Noguez &Ruben´ G. Barrera, “Applications of multiple scattering theory to material science”, MRS Symposium Proceedings, Vol. 253, pags.123 – 128, ed. por William H. Butler, Peter H. Dederichs, A. Gonis and R. Weaver, MRS, Pittsburgh, (1992).

11. The optical response of composites at low €lling fractions: a new diagrammatic summation, Ruben´ G. Barrera, Cecilia Noguez, & Enrique V. Anda, 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 34

Surface Sciences: lectures on basic concepts and applications, Vol.62 pags. 249 – 255, ed. por F.A. Ponce y M. Cardona, Springer-Verlag, Berl´ın, (1991).

10. E‚ective dielectric response of composites: a new diagrammatic approach, Ruben´ G. Barrera, Cecilia Noguez & Enrique V. Anda, Condensed Matter Theories, Vol. 5, pags. 209 – 216, ed. por V.C. Aguilera-Navarro, Plenum Press, New york, (1990).

– Memorias en extenso en espanol˜

9. Birrefringencia optica´ exhibida por nanopart´ıculas metalicas´ de plata deformadas, Torres-Torres C., Reyes-Esqueda J.A., Cheang-Wong J. C., Crespo-Sosa A., Rodr´ıguez-Fernandez´ L., Noguez C., Oliver A., XX Reunion´ Anual de Optica,´ 2007.

8. Comportamiento optico´ de part´ıculas en escala nanometrica´ Cecilia Noguez, Memoria IV encuentro “Participacion´ de la mujer en la Ciencia”, ISBN 978-968-9241-03-4. Leon´ Guanajuato, Mayo de 2007.

7.C alculo´ de Espectros de Dicro´ısmo Circular de Nanotubos Quirales Ariadna Sanchez-Castillo,´ Carlos E. Roman´ Velazquez´ , Cecilia Noguez, & L. Meza-Montes Memorias VI Taller Nacional de Estudiantes de Posgrado en F´ısica y Ciencia de Materiales, Puebla 2004.

6. Estudio teorico´ de nanotubos de carbono por medio de dicro´ısmo circular Ariadna Sanchez-Castillo,´ Carlos E. Roman´ Velazquez´ , Cecilia Noguez, & L. Meza-Montes Memorias del IX Encuentro Regional de Investigacion´ y Ensenanza˜ de la F´ısica, 2004.

5. Propiedades electronicas´ de super€cies semiconductoras ideales Xochitl Lopez´ Lozano, Cecilia Noguez, & L. Meza Montes Memorias del V Taller Nacional de F´ısica y Ciencia de Materiales para Estudiantes de Posgrado, F. Perez´ Rodr´ıguez et. al., BUAP 2003, ISBN 968 863 683 5, Mexico.´

4. Propiedades electronicas´ de las super€cies semiconductoras ideales GaAs e InAs Xochitl Lopez´ Lozano, Cecilia Noguez, & L. Meza Montes Memorias del VIII Encuentro Regional de Investigacion´ y Ensenanza˜ de F´ısica, 2002. (en CD)

– Art´ıculos de divulgacion´

3. Y se hizo la luz (Nota editorial), Cecilia Noguez&R.J auregui´ Ciencia 63 (3), pp 6–7 (2016).

2. Comprimiendo la luz, Cecilia Noguez, Ciencia 63 (3), pp 39–45 (2016).

1. Nanociencia y Nanotecnolog´ıa, Ignacio L. Garzon´ & Cecilia Noguez, Ciencia y Tecnolog´ıa 30, 46 –49 (2005). 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 35

CITAS (3545)

TOTAL CITAS 3545 CITAS SIN AUTOCITAS (93.87 %) 3328 TIPO A: Citas externas (90.16 %) ...... 3193 TIPO B: Citas por coautores (3.70 %) ...... 131 AUTOCITAS (6.13 %) ...... 217 ´INDICE h 25 CITAS en Google Academico´ (ultima´ consulta el 9 de marzo de 2018) ...... 4253 Puede consultar el sitio web http://scholar.google.com.mx/citations?user=9JVn-G0AAAAJ&hl=es C.A. = autor l´ıder o responsable de la publicacion´ Tabla informativa de citas ISI (WoS) & SCOPUS (3545)

ART´ICULOA NO˜ C.A. AUTOR(ES) CITAS TIPO A TIPO B TIPO C 1 J. Phys. Chem C 111 3806 2007 X Noguez 1019 1009 – 10 2 J. Phys. Chem. B 107 63269 2003 X Sosa et al. 569 559 2 8 3 Plasmonics 3 127 2008 Zhang et al. 234 225 6 3 4 Chem. Soc. Rev. 38 757 2009 X Noguez et al. 193 186 2 5 5 Opt. Mater. 27 1204 2005 X Noguez 124 111 – 13 6 Phys. Rev. B 74 245425 2006 X Oliver et al. 96 66 27 3 7 J. Phys. Chem. B 107 12035 2003 X Roman-Vel´ azquez´ et al. 88 80 2 6 8 J. Comp. Theor. Nanosci. 4 273 2007 X Gonzalez´ et al. 84 75 1 8 9 J. Am. Chem. Soc. 132 1504 2010 X Sanchez-Castillo´ et al. 80 71 3 6 10 Phys. Rev. Lett. 76 4923 1996 Noguez et al. 76 49 23 4 11 J. Phys. Chem. C 112 7356 2008 X Gonzalez´ et al. 74 64 5 5 12 J. Phys. Chem. B 109 17512 2005 X Gonzalez´ et al. 64 53 3 8 13 J. Phys. Chem. C 112 17533 2008 Santizo et al. 45 35 4 6 14 Phys. Rev. B 73 045401 2006 X Sanchez-Castillo´ et al. 39 36 – 3 15 Phys. Rev. B 61 10427 2000 X Roman-Vel´ azquez´ et al. 39 28 1 10 16 Phys. Sta. Sol. (c) 4 4118 2007 X Gonzalez´ et al. 36 29 1 6 17 Phys. Rev. B 73 035430 2006 Lopez-Lozano´ et al. 36 31 5 – 18 Opt. Exp. 16 710 2008 Reyes-Esqueda et al. 35 24 9 2 19 J Phys Chem C 118 9128 2014 X Gonzalez et al. 30 24 3 3 20 J. Phys. Chem. Lett. 2 1038 2011 X Noguez et al. 30 27 – 3 21 J. Phys. Chem. C 114 9640 2010 X Sanchez-Castillo´ et al. 29 24 – 5 22 Surf. Sci. 331-333 1349 1994 Noguez et al. 26 20 1 5 23 Phys. Rev. B 54 8028 1996 Alonso et al. 26 23 1 2 24 Eur. Phys. Lett. 67 191 2004 X Noguez et al. 25 19 6 – 25 J. Chem. Phys. 96 1574 1992 Barrera et al. 25 1825 26 J. Phys. Chem. Lett. 2 1978 2011 X Angulo et al. 24 21 1 2 27 Nature Nanotechnol. 11 520 2016 Kim et al. 23 21 1 1 28 Phys. Rev. B 79 075438 2009 X Hidalgo et al. 22 12 – 10 29 J. Phys. Chem. A 113 4068 2009 X Roman-Vel´ azquez´ et al. 21 16 2 3 30 Phys. Rev. B 70 195412 2004 X Noguez et al. 21 16 2 3 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 36

Lista de citas sin autocitas A+B (=3328)

ART´ICULO (citas 1009): 3319. E. Carbo-Argibay,´ B. Rodr´ıguez-Gonzalez,´ J. Paci€co, I. Surface Plasmons on Metal Nanoparticles: The Inƒuence of Shape Pastoriza-Santos, J. Perez-Juste,´ L. M. Liz-Marzan,´ Chemi- and Physical Environment, Cecilia Noguez, J Phys Chem C (Feature cal Sharpening of Gold Nanorods: The Rod-to-Octahedron Article) 111 (10) 3806-3819 (2007). Transition, Angewandte Chemie 119, 9141 (2007)

TIPO A (1009): 3318. Bryant, G. W.; Garcia de Abajo, F. J.; Aizpurua, J., Mapping the Plasmon Resonances of Metallic Nanoantennas, Nano 3328. Boris N. Khlebtsov, Andrei Melnikov and Nikolai G. Khlebtsov, Lett. 8, 631 (2008) On the extinction multipole plasmons in gold nanorods, J. 3317. L Shang, S Dong, Detection of neurotransmitters by a light Quantitative Spectroscopy and Radiative Transfer 107, 306 scattering technique based on seed-mediated growth of (2007) gold nanoparticles, Nanotechnology 19, 095502 (2008)

3327. Stener, M.; Nardelli, A.; De Francesco, R.; Fronzoni, G., Op- 3316. Olkhov, R.V., Shaw, A.M., Label-free antibody-antigen bin- tical Excitations of Gold Nanoparticles: A Quantum Chemi- ding detection by optical sensor array based on surface- cal Scalar Relativistic Time Dependent Density Functional synthesized gold nanoparticles, Biosensors and Bioelectro- Study, J. Phys. Chem. C (2007) 111, 11862 nics 23, 1298 (2008)

3326. Khlebtsov, B. N.; Khlebtsov, N. G, Multipole Plasmons in Me- 3315. Henry, Kiely, Sir Thomas , Russell, Ricolleau, Bond, Geng, tal Nanorods: Scaling Properties and Dependence on Parti- Mattei, Johnston, Mejia , Lievens, Ferrando, Henry, Leiva, cle Size, Shape, Orientation, and Dielectric Environment, J. El-Shall, Fortunelli, Broyer, Jellinek, Langlois, Baletto, Geng Phys. Chem. C (2007) 111, 11516 , Hou, Hampe, Ellis, Scho€eld, Hutchings, Johnson, Pastor, Marsault, Baletto General Discussion, Faraday Discussions 3325. A. B. Evlyukhin, G. Brucoli, L. Mart´ın-Moreno, S. I. Boz- 138, 421 (2008) hevolnyi, and F. J. Garc´ıa-Vidal, Surface plasmon polari- ton scattering by €nite-size nanoparticles, Phys. Rev. B 76, 3314. Song, Y., Yanga, W., King, M Shape controlled synthesis of 075426 (2007) sub-3 nm Ag nanoparticles and their localized surface plas- monic properties, Chemical Physics Letters 455, 218 (2008) 3324. V.V. Klimov and D.V. Guzatov, Pasmonic atoms and plasmo- nic molecules, Journal Applied Physics A: Materials Science 3313. Bae, Y.; Kim, N. H.; Kim, M.; Lee, K. Y.; Han, S. W.; Anisotropic & Processing, 89, 305 (2007). Assembly of Ag Nanoprisms, J. Am. Chem. Soc. 130, 5432 (2008) 3323. Sprunken, D. P.; Omi, H.; Furukawa, K.; Nakashima, H.; Sy- chugov, I.; Kobayashi, Y.; Torimitsu, K., Inƒuence of the Lo- 3312. Mazurenka, M.; Hamilton, S. M.; Unwin, P. R.; Mackenzie, cal Environment on Determining Aspect-Ratio Distributions S. R.; In-Situ Measurement of Colloidal Gold Adsorption on of Gold Nanorods in Solution Using Gans Theory, J. Phys. Functionalized Silica Surfaces, J. Phys. Chem. C 112, 6462 Chem. C 111, 14299 (2007) (2008)

3322. K Munechika, J M. Smith, Y Chen, D S. Ginger, Plasmon Line 3311. M. Hu, C. Novo, A. Funston, H. Wang, H. Staleva, S. Zou, Widths of Single Silver Nanoprisms as a Function of Particle P. Mulvaney, Y. Xia, G V. Hartland, Dark-€eld microscopy Size and Plasmon Peak Position, J. Phys. Chem. C 111, 18906 studies of single metal nanoparticles: understanding the (2007) factors that inƒuence the linewidth of the localized surfa- ce plasmon resonance, J. Mater. Chem. 18, 1949 (2008) 3321. M Sukharev, J Sung, K G. Spears, T Seideman, Optical pro- perties of metal nanoparticles with no center of inversion 3310. Hsu, Y.-J.; Lu, S.-Y.; Lin, Y.-F.; Spontaneous Reduction of Me- symmetry: Observation of volume plasmons, Phys. Rev. B tal Ions Initiated by Ethylenediamine-Capped CdS Nanowi- 76, 184302 (2007) res: A Sensing Mechanism Revealed, Chem. Mater. 20, 2854 (2008) 3320. Evlyukhin, A.B., Leksin, A.Yu , Gerke, M.N. , Evlyukhina, E.V., Resonance near-€eld optical response of metal nanoparti- 3309. Juluri, B. K.; Zheng, Y. B.; Ahmed, D.; Jensen, L.; Huang, T. J., cle structures in a layer environment, Proceedings of SPIE E‚ects of Geometry and Composition on Charge-Induced - The International Society for Optical Engineering Volume Plasmonic Shi†s in Gold Nanoparticles, J. Phys. Chem. C. 6728, 2007, Article number 672819. 112, 7309 (2008) 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 37

ART´ICULOA NO˜ C.A. AUTOR(ES) CITAS TIPO A TIPO B TIPO C 31 J. Chem. Phys. 134 044116 2011 X Roman-Vel´ azquez´ et al. 19 15 – 4 32 J. Phys. Chem. A 112 5834 2008 X Angulo et al. 17 13 – 4 33 Phys. Rev. B 57 302 1998 X Noguez et al. 17 14 – 3 34 Phys. Rev. B 58 12641 1998 X Noguez 16 10 – 6 35 J Phys Chem C 116 14170 2012 X Gonzalez et al. 15 11 1 3 36 Phys. Sta. Sol. (b) 247 1889 2010 X Hidalgo et al. 15 12 – 3 37 Eur. Phys. J. D 52, 179 2009 X Hidalgo et al. 15 9 1 5 38 Surf. Sci. 318 342 1994 Noguez et al. 14 10 1 3 39 ACS Nano 7 513 2013 X Hidalgo et al. 13 10 – 3 40 Phys. Rev. A 69 042109 2004 X Roman-Vel´ azquez´ et al. 12 8 1 3 41 Phys. Rev. B 58 7367 1998 X Esquivel-Sirvent et al. 12 8 – 4 42 Phys. Rev. B53 13138 1996 X Noguez et al. 12 5 – 7 43 Phys. Rev. B 62 2681 2000 X Noguez 11 10 – 1 44 Phys. Rev. B 56 9719 1997 X Noguez et al. 11 10 – 1 45 J Phys Chem C 119 10824 2015 X Becerril et al. 9 7 – 2 46 Nanoscale 6 3325 2014 X Hidalgo et al. 9 7 – 2 47 J Mat Chem C 1 3150 2013 X Gonzalez et al. 8 6 – 2 48 Supp. &Micro. 20 405 1996 X Noguez et al. 8 5 2 1 49 Physica A 211 399 1994 Noguez et al. 8 6 – 2 50 Phys. Rev. B 71 125337 2005 X Lopez-Lozano´ et al. 6 2 4 – 51 Physica B 279 2000 Beitia et al. 6 3 1 2 52 Phys. Sta. Sol. (a)175 57 1999 X Noguez 6 5 – 1 53 Chirality 26 2014 X Hidalgo et al. 5 3 – 2 54 J. Phys. A 39 6695 2006 X Roman-Vel´ azquez´ et al. 5 3 2 – 55 MRS Proceedings Vol. 704 2002 X Noguez et al. 5 4 – 1 56 Phys. Sta. Sol. (a)175 393 1999 X Roman-Vel´ azquez´ et al. 4 3 – 1 57 J. Appl. Phys. 82 3618 1997 Esquivel-Sirvent et al. 4 4 – – 58 Appl. Surf. Sci. 104 158 1996 Roy et al. 4 4 – – 59 Nanoscale 8 14457 2016 X Hidalgo et al. 3 3 – – 60 MRS Proceedings Vol. 703 2002 Esquivel-Sirvent et al. 3 – 3 – 61 MRS Proceedings Vol. 449 1997 X Noguez et al. 3 2 – 1 62 MRS Proceedings, Vol. 253 1993 Villasenor-G.˜ et al. 3 3 – – 63 Phys. Sta. Sol. (c) 0 2992 2003 X Lopez-Lozano´ et al. 2 2 – – 64 Quantum Field Theory . . . 2004 X Noguez et al. 2 1 – 1 65 J Phys Chem C 120 2349 2016 X Diaz et al. 1 – 1 1 66 Phys. Sta. Sol. (b) 252 2015 X Noguez et al. 1 1 – – 67 Cap. Quantum Chem. Calculations 2009 X Noguez et al. 1 – 1 – 68 MRS Proceedings Vol. 581 2000 X Roman-Vel´ azquez´ et al. 1 – – 1 69 Com. Privada 1998 Noguez 1 1 – – 70 Surface Sciences Proceedings Vol. 62 1990 Barrera et al. 1 – 1 –

TOTALES 3545 = 3197 + 131 + 217

3308. D Ferrer, D A. Blom, L F. Allard, S Mej´ıa, E Perez-Tijerina,´ (2008). M Jose-Yacam´ an,´ Atomic structure of three-layer Au/Pd nanoparticles revealed by aberration-corrected scanning 3307. R Brahma, M G Krishna, Ion beam sputtered ultra-thin and transmission electron microscopy, J. Mater. Chem. 18, 2442 nanostructured Ag €lms for surface plasmon applications, 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 38

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3258. L Liu, T Wei, X Guan, X Zi, H He, H Dai, Size and Morphology 3246. Cade, NI; Ritman-Meer, T; Richards, D Strong coupling of Adjustment of PVP-Stabilized Silver and Gold Nanocrystals localized plasmons and molecular excitons in nanostruc- Synthesized by Hydrodynamic Assisted Self-Assembly, J. tured silver €lms, Phys. Rev B 79, 241404 (2009) and ar- Phys. Chem. C 113, 8595 (2009) Xiv:0904.2674v1

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3234. Rodriguez-Iglesias, V; Silva-Pereyra, HG; Torres-Torres, C; 3223. Ros, I., Schiavuta, P., Mattei, G., Bozio, R. Saturable absor- Reyes-Esqueda, JA; Cheang-Wong, JC; Crespo-Sosa, A; ption of femtosecond laser pulses at surface plasmon re- Rodriguez-Fernandez, L; Lopez-Suarez, A; Oliver, A, Lar- sonance in gold nanoshells, Proceedings of SPIE - The In- ge and anisotropic third-order nonlinear optical response ternational Society for Optical Engineering 7394, art. no. from anisotropy-controlled metallic nanocomposites, Op- 739412 (2009) tics Communications 282, 4157 (2009) 3222. F. Bisio, M. Palombo, M. Prato, O. Cavalleri, E. Barborini, S. 3233. Al-Qadi, B., Toshiharu, S. A study of optical anisotropy for Vinati, M. Franchi, L. Mattera, and M. Canepa, Optical pro- nearly spherical gold nanoparticles: Toward a sensitive de- perties of cluster-assembled nanoporous gold €lms, Phys. tection using polarization microscopy in biomolecular ap- Rev. B 80, 205428 (2009) plications, Progress in Biomedical Optics and Imaging - Pro- ceedings of SPIE 7190, 719016 (2009) 3221. Khlebtsov, NG; Dykman, LA, Optical properties and biomedi- cal applications of plasmonic nanoparticles, J. Quantitative 3232. Simsek E, On the Surface Plasmon Resonance Modes of Spectroscopy & Radiative Transfer 111, 1-35 (2010) Metal Nanoparticle Chains and Arrays, Plasmonics 4, 223 (2009) 3220. Qi, H., Alexson, D.A., Glembocki, O., Prokes, S.M. Formation of dielectric core/metal sheath nanowire composites and 3231. Maduraiveeran, G., Ramaraj, R., Potential sensing platform their application to SERS sensing, roceedings of SPIE - The of silver nanoparticles embedded in functionalized silicate International Society for Optical Engineering 7406, art. no. shell for nitroaromatic compounds, Analytical Chemistry 81, 74060X (2009) 7552 (2009) 3219. Jessica, R.-F., Novo, C., Myroshnychenko, V., Funston, A.M., 3230. Juluri, BK; Lu, MQ; Zheng, YB; Huang, TJ; Jensen, L, Coupling Ana, S.-I., Isabel, P.-S., Jorge, P.-J., (...), Mulvaney, P. Spectros- between Molecular and Plasmonic Resonances: E‚ect of copy, imaging, and modeling of individual gold decahedra, Molecular Absorbance, J. Phys. Chem C 113, 18499 (2009) J Phys Chem C 113, 18623 (2009) 3229. Rodriguez-Fernandez, J; Novo, C; Myroshnychenko, V; Funs- 3218. Z R Guo, C R Gu, X Fan, Z P Bian, H F Wu, D Yang, N Gu ton, AM; Sanchez-Iglesias, A; Pastoriza-Santos, I; Perez- and J N Zhang, Fabrication of Anti-human Cardiac Tropo- Juste, J; de Abajo, FJG; Liz-Marzan, LM; Mulvaney, P Spec- nin I Immunogold Nanorods for Sensing Acute Myocardial troscopy, Imaging, and Modeling of Individual Gold Deca- Damage, Nanoscale Research Letters 4, 1931 (2009) hedra, J. Phys. Chem C 113, 18623 (2009) 3217. Kuznetsov, AI; Evlyukhin, AB; Reinhardt, C; Seidel, A; Ki- 3228. Zhu, S., Huang, J., Tang, S., Meng, X, Synthesis of Ag micro- yan, R; Cheng, W; Ovsianikov, A; Chichkov, BN Laser-induced particles with hierarchical nanostructure on the anode of transfer of metallic nanodroplets for plasmonics and meta- a galvanic cell, Materials Chemistry and Physics 118, 442 material applications, J. Optical Soc. Am. B-Optical Physics (2009) 26, B130 (2009) 3227. Kawamura, G; Nogami, M, Application of a conproportiona- tion reaction to a synthesis of shape-controlled gold nano- 3216. Al-Qadi, B; Saiki, T Optical characterization for nearly sp- particles, J. Crystal Growth 311, 4462 (2009) herical gold colloidals via their polarization response, J. Na- nophotonics 3, 039503 (2009) 3226. Ze, X.S., Kasim, J., You, Y.M., Du, C.L., A novel near-€eld Ra- man and white light imaging system for nano photonic and 3215. Trinh, L.T.T., Volden, S., Kjoniksen, A.-L., Zhu, K., Knudsen, plasmonic studies, Materials Research Society Symposium K.D., Glomm, W.R., Nystrom,¨ B, Temperature-induced ad- Proceedings 1077, 19 (2008) sorption and optical properties of an amphiphilic diblock copolymer adsorbed onto ƒat and curved silver surfaces, 3225. Neretina, S; Dreaden, EC; Qian, W; El-Sayed, MA; Hughes, J. Colloid and Interface Science 342, 142 (2010) RA; Preston, JS; Mascher, P, The Dependence of the Plas- mon Field Induced Nonradiative Electronic Relaxation Me- 3214. Y W Lee, M Kim, Z H Kim, S W Han, One-Step Synthesis of chanisms on the Gold Shell Thickness in Vertically Aligned Au at Pd Core-Shell Nanooctahedron, J. Am. Chem. Soc. 131, CdTe-Au Core-Shell Nanorods, Nano Letters 9, 3772 (2009) 17036 (2009)

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3143. Song, Y., Zhang, Z., Elsayed-Ali, H.E., Wang, H., Henry, L.L., 3131. Rincon, L; Gonzalez, CA Extended Huckel Tight-Binding Cal- Wang, Q., Zou, S., Zhang, T. Identi€cation of single nano- culations of Electronic Resonances in Linear Chains of Gold particles, (2011) Nanoscale, 3 (1) pp. 31-44. Atoms and Clusters, J. PHYSICAL CHEMISTRY C 114 (48): 20734-20740 DEC 9 2010 3142. Khlebtsov, B.N., Khanadeev, V.A., Maksimova, I.L., Terentyuk, G.S., Khlebtsov, N.G. Silver nanocubes and gold nanocages: 3130. Lecarme, O; Pinedo-Rivera, T; Berton, K; Berthier, J; Peyrade, Fabrication and optical and photothermal properties, (2010) D Plasmonic coupling in nondipolar gold colloidal dimers, Nanotechnologies in Russia, 5 (7-8) pp. 454-468. APPLIED PHYSICS LETTERS 98 (8): Art. No. 083122 FEB 21 2011 3141. Kennedy, L.C., Bickford, L.R., Lewinski, N.A., Coughlin, A.J., Hu, Y., Day, E.S., West, J.L., Drezek, R.A. A new era for cancer 3129. Ahamad, N; Ianoul, A Using Phospholipids To Control In- treatment: Gold-nanoparticle-mediated thermal therapies, terparticle Distance in SERS-Active Substrates, J. PHYSICAL (2011) Small, 7 (2) pp. 169-183. CHEMISTRY C 115 (9): 3587-3594 MAR 10 2011 3128. Fitzgerald, TM; Marciniak, MA; Nauyoks, SE Development 3140. G Kyas, V May, Density matrix based microscopic theory of a tunable polarimetric scatterometry system in the of molecule metal–nanoparticle interactions: Linear absor- MWIR and LWIR, REFLECTION, SCATTERING, AND DIFFRAC- bance and plasmon enhancement of intermolecular excita- TION FROM SURFACES II 7792: Art. No. 779209 2010 tion energy transfer, J. Chem. Phys. 134, 034701 (2011) 3127. Meyer, SA; Le Ru, EC; Etchegoin, PG Combining Surface Plas- 3139. Bahadur, N M; Furusawa, T; Sato, M; Kurayama, F; Siddi- mon Resonance (SPR) Spectroscopy with Surface-Enhanced quey, I A; Suzuki, N; Fast and facile synthesis of silica coated Raman Scattering (SERS), ANALYTICAL CHEMISTRY 83 (6): silver nanoparticles by microwave irradiation, J. Colloid and 2337-2344 MAR 15 2011 Interface Science, 355 (2), p.312, Mar 2011 3126. Grant, J; Alton, J; Ma, Y; Saha, S; Cumming, DRS Multiple THz 3138. Qin, YQ; Ji, XH; Jing, J; Liu, H; Wu, HL; Yang, WS Size control Surface Plasmon Resonances of Periodic Split Ring Arrays over spherical silver nanoparticles by ascorbic acid reduc- in Silicon, 35TH INTERNATIONAL CONFERENCE ON INFRARED, tion, COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND MILLIMETER, AND TERAHERTZ WAVES (IRMMW-THZ 2010) : - ENGINEERING ASPECTS 372 (1-3): 172-176 DEC 3 2010 2010 3137. Lee, J.Y., Lee, J., Jang, Y.J., Lee, J., Jang, Y.H., Kochuveedu, 3125. T M. Fitzgerald, M A. Marciniak Full Optical Scatter Analysis S.T., Park, C., Kim, D.H. Controlling the composition of plas- for Novel Photonic and Infrared Metamaterials, Conferen- monic nanoparticle arrays via galvanic displacement reac- ce Proceedings of the Society for Experimental Mechanics tions on block copolymer nanotemplates, (2011) Chemical Series, 1, Volume 2, MEMS and Nanotechnology, Volume 2, Communications, 47 (6) pp. 1782-1784. Pages 97-105

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3095. Chen, HJ; Ming, T; Zhang, SR; Jin, Z; Yang, BC; Wang, JF E‚ect 3084. Ortiz, N; Skrabalak, SE Controlling the Growth Kinetics of of the Dielectric Properties of Substrates on the Scattering Nanocrystals via Galvanic Replacement: Synthesis of Au Te- Patterns of Gold Nanorods, ACS NANO 5 (6): 4865-4877 JUN trapods and Star-Shaped Decahedra, CRYSTAL GROWTH & 2011 DESIGN 11 (8): 3545-3550 10.1021/cg200484m AUG 2011

3094. Swanglap, P; Slaughter, LS; Chang, WS; Willingham, B; Kha- 3083. Jiang, CF; Guan, ZP; Lim, SYR; Polavarapu, L; Xu, QH Two- nal, BP; Zubarev, ER; Link, S Seeing Double: Coupling bet- photon ratiometric sensing of Hg(2+) by using cysteine fun- ween Substrate Image Charges and Collective Plasmon Mo- ctionalized Ag nanoparticles, NANOSCALE 3 (8): 3316-3320 des in Self-Assembled Nanoparticle Superstructures, ACS 2011 NANO 5 (6): 4892-4901 JUN 2011 3082. Khan, ZA; Kumar, R; Mohammed, WS; Hornyak, GL; Dutta, J 3093. Zhang, Y., Yu, J., Ryderfors, L., Birch, D.J.S., Chen, Y. Fluo- Optical thin €lm €lters of colloidal gold and silica nanopar- rescence intensity and lifetime imaging of gold nanorods in ticles prepared by a layer-by-layer self-assembly method, cells, 2011 5th International Conference on Bioinformatics J. MATERIALS SCIENCE 46 (21): 6877-6882 2011 and Biomedical Engineering, iCBBE 2011 , art. no. 5780219 3081. Zhang, DH; Liu, XH; Wang, X Green synthesis of graphene 3092. Zhang, D., Liu, X., Wang, X. Monodispersed protein stabi- oxide sheets decorated by silver nanoprisms and their anti- lized silver nanoprisms: Synthesis, optical properties and bacterial properties, J. INORGANIC BIOCHEMISTRY 105 (9): surface-enhanced Raman scattering application, 2011 Ma- 1181-1186 2011 terials Science Forum 688, pp. 162-167 3080. Grigorchuk N I.; Tomchuk P M. Optical and transport pro- 3091. Anghinol€, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Fle- perties of spheroidal metal nanoparticles with account for xible Tuning of Shape and Arrangement of Au Nanoparti- the surface e‚ect, PHYSICAL REVIEW B 84, 085448 2011 cles in 2-Dimensional Self-Organized Arrays: Morphology and Plasmonic Response, J. PHYSICAL CHEMISTRY C 115 (29): 3079. Ye, D., Mutisya, S., Bertino, M. Enhancement of electric €eld 14036-14043 2011 and Raman scattering by Ag coated Ni nanotips APPLIED PHYSICS LETTERS 99, 081909 2011 3090. Borensztein, Y; Delannoy, L; Barrera, RG; Louis, C Kinetics of the plasmon optical response of Au nanoparticles/TiO(2) 3078. Alsawa†a, M., Wahbeh, M., Misra, S., Truong, V.-V. The e‚ect catalyst under O(2) and H(2) followed by di‚erential di‚use of the target size on the optical response of ultra€ne metallic reƒectance spectroscopy, EUROPEAN PHYSICAL JOURNAL D spherical particles arranged in a two-dimensional array, 63 (2): 235-240 2011 Proceedings of SPIE - The International Society for Optical Engineering 8007, art. no. 80071H 2011 3089. Kansal, SK; Ali, AH; Kapoor, S; Bahnemann, DW Synthesis of ƒower like zinc oxide nanostructure and its application as 3077. Albella, P., Garcia-Cueto, B., Gonzalez,´ F., Moreno, F., Wu, a photocatalyst, SEPARATION AND PURIFICATION TECHNO- P.C., Kim, T.-H., Brown, A., Yang, Y., Everitt, H.O., Videen, LOGY 80 (1): 125-130 2011 G. Shape matters: Plasmonic nanoparticle shape enhances 3088. Mendoza-Galvan, A; Jarrendahl, K; Dmitriev, A; Pakizeh, T; interaction with dielectric substrate, Nano Letters 11 (9), pp. Kall, M; Arwin, H Optical response of supported gold nano- 3531-3537 2011 disks, OPTICS EXPRESS 19 (13): 12093-12107 JUN 20 2011 3076. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surface moni- 3087. Sadeghi, SM Plasmonic Metaresonance Nanosensors: Ultra- toring based on light scattering by metal nanosensors, J. sensitive Tunable Optical Sensors Based on Nanoparticle QUANTITATIVE SPECTROSCOPY & RADIATIVE TRANSFER 112 Molecules, IEEE TRANSACTIONS ON NANOTECHNOLOGY 10 (13): 2046-2058 SI 2011 (3): 566-571 2011 3075. Shou, QH; Guo, C; Yang, LR; Jia, LW; Liu, CZ; Liu, HZ E‚ect 3086. Khunsin, W; Brian, B; Dorfmuller, J; Esslinger, M; Vogelge- of pH on the single-step synthesis of gold nanoparticles sang, R; Etrich, C; Rockstuhl, C; Dmitriev, A; Kern, K Long- using PEO-PPO-PEO triblock copolymers in aqueous media, Distance Indirect Excitation of Nanoplasmonic Resonances, J. COLLOID AND INTERFACE SCIENCE 363 (2): 481-489 2011 NANO LETTERS 11 (7): 2765-2769 2011 3074. Osorio-Roman, I O.; Ortega-Vasquez, V; Vargas, C V, Aroca, 3085. Chau, YF; Jiang, ZH Plasmonics E‚ects of Nanometal Embed- RF Surface-Enhanced Spectra on D-Gluconic Acid Coated ded in a Dielectric Substrate, PLASMONICS 6 (3): 581-589 Silver Nanoparticles, APPLIED SPECTROSCOPY 65, 838-843 2011 2011 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 48

3073. Pandoli, O; Massi, A; Cavazzini, A, Spada, GP, Cui, DX Circu- 3061. Kodali, A.K., Bhargava, R. E‚ect of non-speci€city in sha- lar dichroism and UV-Vis absorption spectroscopic monito- pe, size, and dielectric properties on electromagnetic extin- ring of production of chiral silver nanoparticles templated ction and optical €eld enhancement from spherical nanola- by guanosine 5 ’-monophosphate, ANALYST 136, 3713-3719 yered metal-dielectric particles, 2011 Theoretical Chemistry 2011 Accounts 130 (4-6), pp. 991-1000

3072. Ocwieja, M., Adamczyk, Z., Morga, M., Michna, A. High den- 3060. Dementeva, OV; Rudoy, VM Colloidal synthesis of new sity silver nanoparticle monolayers produced by colloid silver-based nanostructures with tailored localized surface self-assembly on polyelectrolyte supporting layers, J. Co- plasmon resonance, COLLOID JOURNAL, 73 (6):724-742; DEC lloid and Interface Science 364 (1), pp. 39-48 2011 2011

3071. Brahma, R; Reddy, GM; Lakshmi, PA; Singh, S; Krishna, MG 3059. Tesler, AB; Chuntonov, L; Karakouz, T; Bendikov, TA; Haran, G; Controlled Nanostructuring of Ag Films by Ion Beam Sputter Vaskevich, A; Rubinstein, I Tunable Localized Plasmon Trans- Deposition for Surface Plasmon Resonance Applications, J. ducers Prepared by Thermal Dewetting of Percolated Evapo- NANOSCIENCE AND NANOTECHNOLOGY 11 (8): 6843-6851 rated Gold Films, J. PHYSICAL CHEMISTRY C, 115 (50):24642- 2011 24652 2011

3070. Asiala, SM; Schultz, ZD Characterization of hotspots in a 3058. Yuan, L; Zhu, J; Ren, YJ; Bai, SW Sectional area-dependent highly enhancing SERS substrate, ANALYST 136 (21): 4472- plasmonic shi†ing in the truncated process of silver nano- 4479 2011 particles: from cube to octahedron, J. NANOPARTICLE RE- SEARCH, 13 (12):6305-6312; 10.1007/s11051-011-0600-z DEC 3069. David, C., Garc´ıa De Abajo, F.J. Spatial nonlocality in the op- 2011 tical response of metal nanoparticles, 2011 J. Physical Che- mistry C 115 (40), pp. 19470-19475 3057. Tamayo-Rivera, L; Fernandez-Hernandez, RC; Rodriguez- Fernandez, L; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JA 3068. Yan, C., Chen, Y., Jin, A., Wang, M., Kong, X., Zhang, X., Ju, Wavelength-varying third-order nonlinear optical response Y., Han, L. Molecule oxygen-driven shaping of gold islands of Ag nanoparticles-Si quantum dots integrated plasmonic under thermal annealing, Applied Surface Science 258 (1), system, OPTICAL MATERIALS EXPRESS, 1 (5):980-989; SEP 1 pp. 377-381 2011 2011 3067. Dhoni, MS; Ji, W Extension of Discrete-Dipole Approximation 3056. Chuntonov, L; Bar-Sadan, M; Houben, L; Harant, G Corre- Model to Compute Nonlinear Absorption in Gold Nanostruc- lating Electron Tomography and Plasmon Spectroscopy of tures, J. PHYSICAL CHEMISTRY C 115 (42): 20359-20366 2011 Single Noble Metal Core-Shell Nanoparticles, NANO LET- 3066. Lazzari, R., Jupille, J. Quantitative analysis of nanoparticle TERS, 12 (1):145-150; 10.1021/nl204125d JAN 2012 growth through plasmonics, Nanotechnology 22 (44), art. 3055. Kazuma, E; Tatsuma, T Photoinduced reversible changes in no. 445703 2011 morphology of plasmonic Ag nanorods on TiO(2) and ap- plication to versatile photochromism, CHEMICAL COMMUNI- 3065. Krenek, T; Fajgar, R; Medlin, R; Klementova, M; Novotny, F; CATIONS, 48 (12):1733-1735 (2012). Drinek, V Fabrication of Cu(x)Ge(y) Nanoplatelets, J. NANOS- CIENCE AND NANOTECHNOLOGY 11 (9): 8279-8283 (2011) 3054. Li, ZQ; Chen, S; Li, JJ; Liu, QQ; Sun, Z; Wang, ZB; Huang, SM Plasmon-enhanced upconversion ƒuorescence 3064. Fischer, J; Vogel, N; Mohammadi, R; Butt, HJ; Landfester, K; in NaYF(4):Yb/Er/Gd nanorods coated with Au nanoparticles Weiss, CK; Kreiter, M Plasmon hybridization and strong near- or nanoshells, J. APPLIED PHYSICS, 111 (1): 014310 2012 €eld enhancements in opposing nanocrescent dimers with tunable resonances, NANOSCALE 3 (11): 4788-4797 (2011) 3053. Sekhon, JS; Verma, SS Tunable plasmonic properties of sil- ver nanorods for nanosensing applications, J. MATERIALS 3063. Estrada, L.C., Gratton, E. 3D nanometer images of biological SCIENCE, 47 (4):1930-1937 (2012) €bers by directed motion of gold nanoparticles, 2011 Nano Letters 11 (11), pp. 4656-4660 3052. Tiemblo, P; Benito, E; Garcia, N; Esteban-Cubillo, A; Pina- Zapardiel, R; Pecharroman, C Multiscale gold and silver 3062. Pescaglini, A; Emanuele, U; O’Riordan, A; Iacopino, D Die- plasmonic plastics by melt compounding, RSC ADVANCES, lectrophoretic Self-Assembly of Au Nanorods for Sensing 2 (3):915-919 (2012) Applications, SENSORS & THEIR APPLICATIONS XVI 307 2011 J. Physics: Conference Series Volume 307, Issue 1, 2011, Ar- 3051. Miyamoto, T; Saito, S; Isobe, T; Nakajima, A; Matsushita, S ticle number 012051 Six-rayed star-like nanostructures in prospective plasmonic 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 49

devices, CHEMICAL COMMUNICATIONS, 48 (11):1668-1670; 3040. Oo, T.Z., Mathews, N., Xing, G., Wu, B., Xing, B., Wong, L.H., 10.1039/c2cc16353e 2012 Sum, T.C., Mhaisalkar, S.G. Ultra€ne gold nanowire networks as plasmonic antennae in organic photovoltaics, (2012) J. 3050. Tan, G., Onur, M.A., Saglam, N. Nano gold and biomedici- Physical Chemistry C, 116 (10) pp. 6453-6458. ne: Scienti€c letter — [Nano altidotlessn ve biyotidotlessp], Turkiye Klinikleri J. Medical Sciences 32 (2) , pp. 499-506 3039. Kubacka, A., Fernandez-Garcia, M., Colon, G. Advanced na- 2012 noarchitectures for solar photocatalytic applications, (2012) 3049. Vanherck, K., Verbiest, T., Vankelecom, I. Comparison of two Chemical Reviews, 112 (3) pp. 1555-1614. synthesis routes to obtain gold nanoparticles in polyimide, 3038. Xia, Z.-R., Li, R.-Q. Fluorescence enhancement of CdTe na- J. Physical Chemistry C 116 (1) , pp. 115-125 2012 nocystals induced by Ag/TiO 2 core-shell nanoparticles, 3048. Alsawa†a, M., Wahbeh, M., Truong, V.-V. Simulated optical (2012) Guangzi Xuebao/Acta Photonica Sinica, 41 (2) pp. 166- properties of gold nanocubes and nanobars by discrete di- 169. pole approximation, (2012) J. Nanomaterials, 2012, art. no. 3037. Cardoso-Avila, P.E., Pichardo-Molina, J.L., Upendra Kumar, 283230 K., Barbosa-Sabanero, G., Barbosa-Garcia, O. Gold nano- 3047. Kochuveedu, S.T., Kim, D.-P., Kim, D.H. Surface-plasmon- particles surface modi€cation using BSA and cysteine, (2011) induced visible light photocatalytic activity of TiO2 nanosp- Proceedings of SPIE - The International Society for Optical heres decorated by au nanoparticles with controlled con€- Engineering, 8011, art. no. 801192 guration, (2012) J. Physical Chemistry C, 116 (3) pp. 2500- 2506. 3036. Agarwala, S., Ho, G.W. Self-ordering anodized nanotubes: Enhancing the performance by surface plasmon for dye- 3046. Amendola, V., Meneghetti, M. Exploring how to increase the sensitized solar cell, (2012) J. Solid State Chemistry, 189 pp. brightness of surface-enhanced raman spectroscopy nano- 101-107. labels: The e‚ect of the raman-active molecules and of the label size, (2012) Advanced Functional Materials, 22 (2) pp. 3035. Ghosh Chaudhuri, R., Paria, S. Core/shell nanoparticles: 353-360. Classes, properties, synthesis mechanisms, characteriza- tion, and applications, (2012) Chemical Reviews, 112 (4) pp. 3045. Haggui, M; Dridi, M; Plain, J; Marguet, S; Perez, H; Schatz, GC; 2373-2433. Wiederrecht, GP; Gray, SK; Bachelot, R Spatial Con€nement of Electromagnetic Hot and Cold Spots in Gold Nanocubes, 3034. Evlyukhin, A.B., Kuznetsov, A.I., Novikov, S.M., Beermann, ACS NANO, 6 (2):1299-1307; 10.1021/nn2040389 FEB 2012 J., Reinhardt, C., Kiyan, R., Bozhevolnyi, S.I., Chichkov, B.N. 3044. Serpone, N., Emeline, A.V. Semiconductor photocatalysis - Optical properties of spherical gold mesoparticles (2012) Past, present, and future outlook, J. Physical Chemistry Let- Applied Physics B: Lasers and Optics, 106 (4) pp. 841-848. ters 3 (5) , pp. 673-677, 2012 3033. Pan€lova, EV; Khlebtsov, BN; Burov, AM; Khlebtsov, NG Study 3043. Chen, R., Li, D., Hu, H., Zhao, Y., Wang, Y., Wong, N., Wang, S., of Polyol Synthesis Reaction Parameters Controlling High Zhang, Y; Hu, J; Shen, ZX; Xiong, Q. Tailoring optical proper- Yield of Silver Nanocubes, Pan€lova, E. V.; Khlebtsov, B. ties of silicon nanowires by au nanostructure decorations: N.; Burov, A. M.; Khlebtsov, N. G., Colloid J, 74 (1):99-109; Enhanced Raman scattering and photodetection, J. Physical 10.1134/S1061933X11060147 FEB 2012 Chemistry C 116 (7) , pp. 4416-4422, 2012 3032. Alsawa†a, M., Wahbeh, M., Truong, V.-V. Plasmonic modes 3042. Mota-Santiago, PE; Crespo-Sosa, A; Jimenez-Hernandez, and optical properties of gold and silver ellipsoidal nano- JL; Sanchez-Dena, O; Fernandez-Hernandez, RC; Reyes- particles by the discrete dipole approximation, 2012 J. Na- Esqueda, JA; Oliver, A Linear and non-linear optical pro- nomaterials 2012 , art. no. 457968 perties of metallic nanocrystals in sapphire, 22ND CON- GRESS OF THE INTERNATIONAL COMMISSION FOR OP- 3031. Qiu, LQ; Saravanamuttu, K Optical self-trapping in a photo- TICS: LIGHT FOR THE DEVELOPMENT OF THE WORLD, 8011 polymer doped with Ag nanoparticles: a single-step route 10.1117/12.903344 2011 to metallodielectric cylindrical waveguides, J Opt Soc Am B, 29 (5):1085-1093; MAY 1 2012 3041. Cyrankiewicz, M; Kruszewski, S Study of optical and physi- cochemical properties of colloidal silver nanoparticles as an 3030. Bae, G.-T., Aikens, C.M. Time-dependent density functional ecient substrate for SERS, 15TH INTERNATIONAL SEMINAR theory studies of optical properties of Ag nanoparticles: Oc- ON PHYSICS AND CHEMISTRY OF SOLIDS, 289 10.1088/1742- tahedra, truncated octahedra, and icosahedra, 2012 J. Phy- 6596/289/1/012016 2011 sical Chemistry C 116 (18) , pp. 10356-10367 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 50

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3008. Myroshnychenko, V., Nelayah, J., Adamo, G., Geuquet, 2998. Han, F; Guan, ZP; Tan, TS; Xu, QH Size-Dependent N., Rodriguez-Fernandez, J., Pastoriza-Santos, I., MacDo- Two-Photon Excitation Photoluminescence Enhancement in nald, K.F., (...), Garcia De Abajo, F.J. Plasmon spectroscopy Coupled Noble-Metal Nanoparticles, ACS APPLIED MATE- and imaging of individual gold nanodecahedra: A combi- RIALS & INTERFACES, 4 (9):4746-4751; 10.1021/am301121k ned optical microscopy, cathodoluminescence, and electron SEP 2012 energy-loss spectroscopy study, 2012, Nano Letters 12 (8) , 2997. Kim, M; Lee, YW; Kim, D; Lee, S; Ryoo, SR; Min, DH; Lee, pp. 4172-4180 SB; Han, SW Reshaping Nanocrystals for Tunable Plasmo- 3007. Almeida, E; Moreira, ACL; Brito-Silva, AM; Galembeck, A; de nic Substrates, ACS APPLIED MATERIALS & INTERFACES, 4 Melo, CP; Menezes, LD; de Araujo, CB Ultrafast dephasing (9):5038-5043; 10.1021/am3015058 SEP 2012 of localized surface plasmons in colloidal silver nanopar- 2996. 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Date: AUG 20-23, 2012 2012 12TH IEEE CONFERENCE ON 2977. Hutter, T., Elliott, S.R., Mahajan, S. Interaction of metallic na- NANOTECHNOLOGY (IEEE-NANO) noparticles with dielectric substrates: E‚ect of optical cons- tants, 2013, Nanotechnology 24 (3) , art. no. 035201 2987. Niesen, B., Rand, B.P., Van Dorpe, P., Cheyns, D., Shen, H., Maes, B., Heremans, P. Near-€eld interactions between me- 2976. Chen, J.-J., Wu, J.C.S., Wu, P.C., Tsai, D.P. Improved photoca- tal nanoparticle surface plasmons and molecular excitons talytic activity of shell-isolated plasmonic photocatalyst Au in thin-€lms. Part I: Absorption, 2012, J. Physical Chemistry at SiO2/TiO2 by promoted LSPR, 2012, J. Physical Chemistry C 116 (45) , pp. 24206-24214 C 116 (50) , pp. 26535-26542

2986. Xu, Q., Liu, F., Meng, W., Huang, Y. Plasmonic core-shell 2975. Bianco, G.V., Giangregorio, M.M., Losurdo, M., Capezzuto, P., metal-organic nanoparticles enhanced dye-sensitized so- Bruno, G. Supported faceted gold nanoparticles with tuna- lar cells, 2012, Optics Express 20 (23) , pp. A898-A907 ble surface plasmon resonance for NIR-SERS, 2012, Advan- ced Functional Materials 22 (24) , pp. 5081-5088 2985. Chakravadhanula, V.S.K., Kubel,¨ C., Hrkac, T., Zaporojtchen- ko, V., Strunskus, T., Faupel, F., Kienle, L. Surface segregation 2974. Anghinol€, L., Cabrera, L.I., Caminale, M., Moroni, R., Mo- in TiO 2-based nanocomposite thin €lms, 2012, Nanotech- rales, M.P., Caprile, L., Canepa, M., (...), Bisio, F. Compo- nology 23 (49) , art. no. 495701 site gold/magnetite plasmonic-magnetic media based on self-organization, 2012, Nanosci & Nanotech Lett 4 (11) , pp. 2984. Bottomley, A., Prezgot, D., Ianoul, A. Plasmonic properties of 1087-1091 silver nanocube monolayers on high refractive index subs- trates, (2012) Applied Physics A: Materials Science and Pro- 2973. Hong, Y., Pourmand, M., Boriskina, S.V., Reinhard, B.M. cessing, 109 (4) pp. 869-872. Enhanced light focusing in self-assembled optoplasmonic clusters with subwavelength dimensions, 2013, Advanced 2983. De Matos, R.A., Da Silva Cordeiro, T., Samad, R.E., Vieira Materials 25 (1) , pp. 115-119 Jr., N.D., Courrol, L.C. Green synthesis of gold nanoparti- cles of di‚erent sizes and shapes using agar-agar water 2972. Wang, R.-C., Lin, Y.-X., Huang, M.R.S., Chao, C.-Y. solution and femtosecond pulse laser irradiation, (2012) Ap- Orientation-controlled growth and optical properties of di- plied Physics A: Materials Science and Processing, 109 (3) verse Ag nanoparticles on Si(100) and Si(111) wafers, 2013, pp. 737-741 Nanotechnology 24 (4) , art. no. 045601

2982. Szacilowski, Konrad Low-Dimensional Metals and 2971. Nedyalkov, N.N., Dikovska, A., Dimitrov, I., Nikov, R., Atana- Semiconductors, John Wiley & Sons, Ltd, doi: sov, P.A., Toshkova, R.A., Gardeva, E.G., Yossifova, LS; Ale- 10.1002/9780470710883.ch4, pp 63–117 (2012) xandrov, M.T. Far-and near-€eld optical properties of gold nanoparticle ensembles, 2012, Quantum Electronics 42 (12) 2981. Fernandez-Hernandez, RC; Gleason-Villagran, R; Torres- , pp. 1123-1127 Torres, C; Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang- Wong, JC; Lopez-Suarez, A; Rangel-Rojo, R; Oliver, A; Reyes- 2970. Lumdee, C., Kik, P.G. Voltage controlled nanoparticle plas- Esqueda, JA On the physical contributions to the third-order mon resonance tuning through anodization, 2012, Procee- nonlinear optical response in plasmonic nanocomposites, J. dings of SPIE - The International Society for Optical Engi- OPTICS, 14 (12):10.1088/2040-8978/14/12/125203 DEC 2012 neering 8457 , art. no. 84570T

2980. Qiu, LQ; Saravanamuttu, K Modulation instability of incan- 2969. J He, C Fan, J Wang, P Ding, G Cai, Y Cheng, S Zhu, E Liang descent light in a photopolymer doped with Ag nanopar- A giant localized €eld enhancement and high sensitivity in ticles, J. OPTICS, 14 (12):10.1088/2040-8978/14/12/125202 an asymmetric ring by exhibiting Fano resonance, J. Opt. DEC 2012 15, 025007 (2013)

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2966. F Wang, D Li, D Yang, and D Que Enhancement of orange- 2954. J Du, L Jiang, Q Shao, X Liu, RS Marks, J Ma, X Chen Co- yellow electroluminescence extraction from SiNx light- lorimetric Detection of Mercury Ions Based on Plasmonic emitting devices by silver nanostructures, Optics Express, Nanoparticles, (2013) Small, 9 (9-10) pp. 1467-1481 Vol. 21, Issue 1, pp. 846-854 (2013) 2953. RC Fernandez-Hernandez, L Tamayo-Rivera, I Rocha- 2965. F Masia, W Langbein P Borri Polarization-resolved ultra- Mendoza, R Rangel-Rojo, A Oliver, JA Reyes-Esqueda An- fast dynamics of the complex polarizability in single gold isotropic Second-and Third-Order Nonlinear Optical Res- nanoparticles, DOI:10.1039/c2cp43451b Phys. Chem. Chem. ponse from Anisotropy-Controlled Metallic Nanocomposi- Phys., 2013, 15, 4226-4232 tes, http://cdn.intechopen.com/pdfs/29952/ 2964. S Patala, L D. Marks, M Olvera de la Cruz Elastic Strain 2952. Xinzhou Ma Electrochemical Machining of Gold Nanostruc- Energy E‚ects in Faceted Decahedral Nanoparticles, J. Phys. tures and Optical Characterization with Cathodoluminescen- Chem. C, 2013, 117 (3), pp 1485–1494 ce Zur Erlangung des akademischen Grades eines DOK- 2963. E Pedrueza, J Sancho-Parramon, S Bosch, J L Valdes,´ TORS DER NATURWISSENSCHAFTEN (Dr. rer. nat.), der Fa- J P Martinez-Pastor Plasmonic layers based on Au- kultat¨ fur´ Chemie und Biowissenscha†en Karlsruher Institut nanoparticle-doped TiO2 for optoelectronics: structural and fur¨ Technologie (KIT) – Universitatsbereich¨ Genehmigte optical properties, 2013 Nanotechnology 24 065202 2951. A Vaskevich, I Rubinstein Localized Surface Plasmon Re- 2962. Gnanavel, M.; Sunandana, C.S. Self-Assembled Ag at AgI sonance (LSPR) Transducers Based on Random Evaporated Core-Shell Nanoparticles in Iodized Ag/PVA Thin Films: Gold Island Films: Properties and Sensing Applications, In Transmission Electron Microscopy, Optical Absorption and Nanoplasmonic Sensors, 333-368, 2012, DOI:10.1007/978- Photoluminescence Studies, Advanced Science, Enginee- 1-4614-3933-2-14 Springer New York ring and Medicine, Volume 5, Number 3, March 2013 2950. C. L. Du, Y. M. You, Z. H. Ni, J. Kasim, Z. X. Shen —textitCon- , pp. 206-216(11) American Scienti€c Publishers DOI: focal White Light Reƒection Imaging for Characterization of http://dx.doi.org/10.1166/asem.2013.1247 Nanostructures, http://cdn.intechopen.com/pdfs/33202/ 2961. T Ribeiro, T J.V. Prazeres , M G. Mott , JP Sequeira Farinha Enhanced Photoluminescence from Micellar Assemblies of 2949. Yujun Song Controlled Fabrication of Noble Metal Nanoma- Cadmium Sul€de Quantum Dots and Gold Nanoparticles, J. terials via Nanosphere Lithography and Their Optical Pro- Phys. Chem. C 117 (6) , pp. 3122-3133 2013 perties, http://cdn.intechopen.com/pdfs/24513/ 2960. X Qu, C Yao, J Wang, Z Li, Z Zhang Anti-CD30-targeted gold 2948. N Harris, S Li, GC Schat Nanoparticles and nanoparticles for photothermal therapy of L-428 Hodgkin’s theory, AIP Conf. Proc. 1504, pp. 31-42; cell, Int J Nanomedicine. 2012; 7: 6095–6103. doi:http://dx.doi.org/10.1063/1.4771701 INTERNATIO- NAL CONFERENCE OF COMPUTATIONAL METHODS IN 2959. G Tan,, M A Onur, N Saglam Utilization of gold nanostructu- SCIENCES AND ENGINEERING 2009: (ICCMSE 2009) res in biomedical applications, Turk J Biol, 36 (2012) 607-621 doi:10.3906/biy-1112-6 2947. Hiroo Omi Determination of Aspect-Ratio Distribu- tion in Gold Nanowires Using Absorption Spectra 2958. T Sandu Eigenmode Decomposition of the Near-Field and Transmission Electron Microscopy Techniques, Enhancement in Localized Surface Plasmon Resonances http://cdn.intechopen.com/pdfs/34881/ of Metallic Nanoparticles, Plasmonics 2012, 1557-1955, 10.1007/s11468-012-9403-z 2946. J Sun, J Ge, W Liu, X Wang, Z Fan, W Zhao, H Zhang, P Wang, 2957. Liu F, Plasmonic Organic Electronic Devices, 11-Jan- S-T Lee A facile assay for direct colorimetric visualization 2012 Canadian theses, Thesis (Ph.D, Chemistry) – of lipopolysaccharides at low nanomolar level, Nano Re- Queen’s University, 2012-01-05 17:22:40.074, URI: search, 2012, Volume 5, Issue 7, pp 486-493 http://hdl.handle.net/1974/6950 2945. F Han, Z Guan, T S Tan, Q-H Xu Size-Dependent Two-Photon 2956. M Rani, NK Sharma,V Saja Localized surface plasmon reso- Excitation Photoluminescence Enhancement in Coupled nance based €ber optic sensor with nanoparticles, Optics Noble-Metal Nanoparticles, ACS Appl. Mater. Interfaces, Communications, 292, 92-100, 2013 2012, 4 (9), pp 4746–4751 2955. C Zheng, F Chen Multiple Surface Plasmon Resonances 2944. Sandu, T; Boldeiu, G. Extinction spectra and near-€eld en- in a Metal–Insulator–Metal Structure Assembled Via Sil- hancement of metallic nanoparticles, Proceedings of the ver–Copper Nanoparticle Arrays, Plasmonics 8 (2) , pp. 651- International Semiconductor Conference, CAS 2 , art. no. 656, 2013, DOI:10.1007/s11468-012-9451-4 6400736 , pp. 441-444 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 54

2943. A Salomon, M Zielinski, R Kolkowski, J Zyss, Y Prior Shape 2932. Camelio, S., Babonneau, D., Pailloux, F., Rousselet, S., Van- and Size Resonances in Second Harmonic Generation from denhecke, E. Sub-Wavelength Arrays of Metallic Nano- Plasmonic Nano-Cavities, 2012, arXiv:1201.6191 particles for Polarization-Selective Broad-Band Absorbers, Nanoscience and Nanotechnology Letters 5, 19-26, 2013, 2942. HUANG SHU-YING Gold nanoparticles-protein conjugate stu- doi:10.1166/nnl.2013.1418 dies: Centrifugation and binding studies, 2012, Department: CHEMICAL & BIOMOLECULAR ENGINEERING, Thesis MASTER 2931. C. S. S. R. Kumar, H. Jing, L. Zhang, and H. Wang Geometri- OF ENGINEERING, National University of Singapore cally Tunable Optical Properties of Metal Nanoparticles, in UV-VIS and Photoluminescence Spectroscopy for Nanoma- ´ 2941. Pedrueza, E., Sancho-Parramon, J., Bosch, S., Valdes, terials Characterization, pages 1–74. Springer Berlin Heidel- J.L., Martinez-Pastor, J.P. 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2900. Bergamini, L., Corni, S. Benchmarking common approxi- 2889. Meng, XG; Fujita, K; Moriguchi, Y; Zong, YH; Tanaka, K mations for determining the particle-size dependence of Metal-Dielectric Core-Shell Nanoparticles: Advanced Plas- adsorbate-induced localized surface plasmon resonance monic Architectures Towards Multiple Control of Random shi†s, 2013, Journal of Physical Chemistry C 117 (28) , pp. Lasers, ADVANCED OPTICAL MATERIALS, 1 (8):573-580; 14742-14750 10.1002/adom.201300153 AUG 2013 2899. Andrieux-Ledier, A., Tremblay, B., Courty, A. Synthesis of 2888. Hutter, T., Mahajan, S., Elliott, S.R. Near-€eld optical enhan- silver nanoparticles using di‚erent silver phosphine precur- cement by lead-sul€de quantum dots and metallic nano- sors: Formation mechanism and size control, 2013, Journal particles for SERS, 2013, Journal of Raman Spectroscopy 44 of Physical Chemistry C 117 (28) , pp. 14850-14857 (9) , pp. 1292-1298 2898. 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2879. Wang, F., Zhao, H., Lai, Y., Liu, S., Zhao, B., Ning, Y., Hu, X. 2868. Jang, YH; Chung, K; Quan, LN; Spackova, B; Sipova, H; Moon, Morphosynthesis of cubic silver cages on monolithic activa- S; Cho, WJ; Shin, HY; Jang, YJ; Lee, JE; Kochuveedu, ST; Yoon, ted carbon, 2013, Physical Chemistry Chemical Physics 15 MJ; Kim, J; Yoon, S; Kim, JK; Kim, D; Homola, J; Kim, DH, (42) , pp. 18367-18370 Con€guration-controlled Au nanocluster arrays on inverse micelle nano-patterns: Versatile platforms for SERS and SPR 2878. Bhargava, A; Jain, N; Barathi, LM; Akhtar, MS; Yun, YS; Pan- sensors, 2013, Nanoscale 5 (24) , pp. 12261-12271 war, J Synthesis, characterization and mechanistic insights of mycogenic iron oxide nanoparticles, JOURNAL OF NANO- 2867. Tang, W., Chase, D.B., Rabolt, J.F. Immobilization of gold na- PARTICLE RESEARCH, 15 (11):10.1007/s11051-013-2031-5 OCT norods onto electrospun polycaprolactone €bers via polye- 20 2013 lectrolyte decoration - A 3D SERS substrate, 2013, Analytical Chemistry 85 (22) , pp. 10702-10709 2877. Zhou, Y., Yang, J., He, T., Shi, H., Cheng, X., Lu, Y. Highly sta- ble and dispersive silver nanoparticle-graphene composites 2866. Jiang, M.-M., Chen, H.-Y., Li, B.-H., Liu, K.-W., Shan, C.-X., by a simple and low-energy-consuming approach and their Shen, D.-Z. Hybrid quadrupolar resonances stimulated at antimicrobial activity, 2013, Small 9 (20) , pp. 3445-3454 short wavelengths using coupled plasmonic silver nanopar- 2876. Au, L., Cobley, C.M., Chen, J., Xia, Y. Gold Nanocages: ticle aggregation, 2014, Journal of Materials Chemistry C 2 A Multifunctional Platform for Molecular Optical Imaging (1) , pp. 56-63 and Photothermal Treatment (Chapter), 2011, Nanoplatform- 2865. Amoruso, S., Nedyalkov, N.N., Wang, X., Ausanio, G., Bruzze- Based Molecular Imaging se, R., Atanasov, P.A. Ultrashort-pulse laser ablation of gold 2875. Lee, J., Han, K., Jang, D.-J. Silica-coated silver/gold com- thin €lm targets: Theory and experiment, 2014, Thin Solid posite nanoboxes having enhanced catalytic performances Films 550 , pp. 190-198 and reusability, 2014, Applied Catalysis A: General 469 , pp. 2864. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic charac- 380-386 terization of novel multicolor reƒective display with electro- 2874. Wei, Q., Wei, A. Signal Generation with Gold Nanoparticles: chemically size-controlled silver nanoparticles, 2013, Jour- Photophysical Properties for Sensor and Imaging Applica- nal of the Society for Information Display 21 (8), 361-367 tions (Chapter ), 2010, The Supramolecular Chemistry of 2863. Can-Uc, B; Rangel-Rojo, R; Rodriguez-Fernandez, L; Oliver, Organic-Inorganic Hybrid Materials, ISBN: 978-047037621- A Polarization selectable nonlinearities in elongated silver 8, DOI: 10.1002/9780470552704.ch10, John Wiley & Sons, nanoparticles embedded in silica, OPTICAL MATERIALS EX- Inc. PRESS, 3 (12):2012-2021; 2013 2873. Razumova, M.A., Dmitruk, I.M. Splitting of Plasmon Fre- 2862. Wen, Y.-H., Huang, R., Zeng, X.-M., Shao, G.-F., Sun, S.-G. Te- quency in Spherical Metal Nanoparticles in Anisotropic Me- trahexahedral Pt-Pd alloy nanocatalysts with high-index fa- dium, 2013, Plasmonics 8 (4) , pp. 1699-1706 cets: An atomistic perspective on thermodynamic and shape 2872. Duan, H., Xuan, Y. Synthesis and optical absorption of stabilities, 2014, J Materials Chem. A 2 (5), 1375-1382 Ag/CdS core/shell plasmonic nanostructure, 2014, Solar Energy Materials and Solar Cells 121 , pp. 8-13 2861. Hashemizadeh, S., Rashidi Huyeh, M. Silver nanocolloid: Synthesis, optical and thermo-optical properties, 2014, Ad- 2871. Zhang, AQ; Qian, DJ; Chen, M Simulated optical proper- vanced Materials Research 829, 670-674 ties of noble metallic nanopolyhedra with di‚erent sha- pes and structures, EUROPEAN PHYSICAL JOURNAL D, 67 2860. Lee, Y.-J., Schade, N.B., Sun, L., Fan, J.A., Bae, D.R., Mariscal, (11):10.1140/epjd/e2013-40240-1 NOV 15 2013 M.M., Lee, G., Capasso, F., Sacanna, S., Manoharan, V.N., Yi, G.-R. Ultrasmooth, highly spherical monocrystalline gold 2870. Martinsson, E; Shahjamali, MM; Enander, K; Boey, F; Xue, particles for precision plasmonics, 2013, ACS Nano 7 (12), C; Aili, D; Liedberg, B Local Refractive Index Sensing Based 11064-11070 on Edge Gold-Coated Silver Nanoprisms, Journal of Physical Chemistry C, 117 (44):23148-23154; 2013 2859. Ahmed, W; Glass, C; Kooij, ES; van Ruitenbeek, JM Tu- ning the oriented deposition of gold nanorods on patter- 2869. Hu, HL; Akimov, YA; Duan, HG; Li, XL; Liao, MY; Tan, RLS; Wu, ned substrates, NANOTECHNOLOGY, 25 (3):10.1088/0957- L; Chen, HY; Fan, HJ; Bai, P; Lee, PS; Yang, JKW; Shen, ZX, 4484/25/3/035301 JAN 24 2014 Photoluminescence via gap plasmons between single silver nanowires and a thin gold €lm, 2013, Nanoscale 5 (24) , pp. 2858. Camelio, S; Vandenhecke, E; Rousselet, S; Babonneau, D 12086-12091 Optimization of growth and ordering of Ag nanoparticle 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 58

arrays on ripple patterned alumina surfaces for strong plas- 2848. Awang, A., Ghoshal, S.K., Sahar, M.R., Ari€n, R., Nawaz, F. monic coupling, NANOTECHNOLOGY, 25 (3):10.1088/0957- Non-spherical gold nanoparticles mediated surface plas- 4484/25/3/035706 JAN 24 2014 mon resonance in Er3+ doped zinc-sodium tellurite glasses: Role of heat treatment, 2014 Journal of Luminescence 149, 2857. Szacilowski, K. (2012) Low-Dimensional Metals and Semi- May 2014, Pages 138-143 conductors, in Infochemistry: Information Processing at the Nanoscale, John Wiley & Sons, Ltd, Chichester, UK. doi: 2847. Chau, Y.-F. , Jheng, C.-Y. Buried E‚ects of Surface Plasmon 10.1002/9780470710883.ch4 Resonance Modes for Periodic Metal-Dielectric Nanostruc- tures Consisting of Coupled Spherical Metal Nanoparticles 2856. Zhang, S.-L. (2012) Introduction to Modern Raman Spectros- with Cylindrical Pore Filled with a Dielectric, Plasmonics 9, copy I-New Raman Spectroscopic Branch Classi€ed Based February 2014, Pages 1-9 on Spectral Features, in Raman Spectroscopy and its Appli- cation in Nanostructures, John Wiley & Sons, Ltd, Chichester, 2846. Wang, BY; Qu, SL Absorption spectra and near-electric UK. doi: 10.1002/9781119961659.ch4 €eld enhancement e‚ects of Au- and Ag-Fe3O4 di- mers, APPLIED SURFACE SCIENCE, 292 1002-1008; 2855. Sanchez-Dena, O; Mota-Santiago, P; Tamayo-Rivera, L; 10.1016/j.apsusc.2013.12.103 FEB 15 2014 Garcia-Ramirez, EV; Crespo-Sosa, A; Oliver, A; Reyes- 2845. Katyal, J., Soni, R.K. Size- and shape-dependent plasmo- Esqueda, JA Size-and shape-dependent nonlinear optical nic properties of aluminum nanoparticles for nanosensing response of Au nanoparticles embedded in sapphire, OPTI- applications, Journal of Modern Optics 60 (20), 2013, 1717- CAL MATERIALS EXPRESS, 4 (1):92-100; 10.1364/OME.4.0092 1728 JAN 1 2014 2844. Hu, Y. , Li, Z., Sun, Y. Enhanced photocatalysis by hybrid 2854. Sinha, B; Goswami, T; Paul, S; Misra, A The impact of surface hierarchical assembly of plasmonic nanocrystals with high structure and band gap on the optoelectronic properties surface areas, Catalysis Today 225, 2014, 177-184 of Cu2O nanoclusters of varying size and symmetry, RSC ADVANCES, 4 (10):5092-5104; 10.1039/c3ra45387a 2014 2843. Chen, L.ab, Wei, H.b, Chen, K.-Q.a, Xu, H.-X., High-order plasmon resonances in an Ag/Al2O3 core/shell nanorice, 2853. Woehl, TJ; Park, C; Evans, JE; Arslan, I; Ristenpart, WD; Brow- Chinese Physics B, Volume 23, Issue 2, February 2014, Ar- ning, ND Direct Observation of Aggregative Nanoparticle ticle number 027303 Growth: Kinetic Modeling of the Size Distribution and Growth Rate, NANO LETTERS, 14 (1):373-378; JAN 2014 2842. Vadakkekara, R., Chakraborty, M. , Parikh, P.A. Synthesis, characterization, and application of monodisperse gelatin- 2852. Chen, H.-Y., Liu, K.-W., Jiang, M.-M., Zhang, Z.-Z., Liu, L., Li, stabilized silver nanospheres in reduction of aromatic ni- B.-H., Xie, X.-H., Wang, F., Zhao, D.-X., Shan, C.-X., Shen, tro compounds, Colloid Journal Volume 76, Issue 1, January D.-Z. Tunable hybridized quadrupole plasmons and their 2014, Pages 12-18 coupling with excitons in ZnMgO/Ag system, Journal of Phy- 2841. Bansal, A; Sekhon, JS; Verma, SS Scattering Eciency and sical Chemistry C, Volume 118, Issue 1, 9 January 2014, Pages LSPR Tunability of Bimetallic Ag, Au, and Cu Nanoparticles, 679-684 PLASMONICS, 9 (1):143-150; 10.1007/s11468-013-9607-x FEB 2851. Zhang, Y., Chen, Y. Applications of gold nanorods based on 2014 localized surface plasmon resonance in Plasmons: Structu- 2840. Battie, Y; Resano-Garcia, A; Chaoui, N; Zhang, Y; Naci- re, Properties and Applications, Pages 117-130, Editors Turu- ri, AE Extended Maxwell-Garnett-Mie formulation applied nen, A.E., Niemi, J.O., ISBN: 978-162100060-0, Nova Scien- to size dispersion of metallic nanoparticles embedded in ce Publishers, Inc. host liquid matrix, JOURNAL OF CHEMICAL PHYSICS, 140 2850. Tran, Q.T., Hoa, H.T.M., Yoo, D.-H., Cuong, T.V., Hur, S.H., (4):10.1063/1.4862995 JAN 28 2014 Chung, J.S., Kim, E.J., Kohl, P.A. text itReduced graphene oxi- 2839. Sun, D. , Zhang, G. , Huang, J. , Wang, H. , Li, Q. Plant- de as an over-coating layer on silver nanostructures for mediated fabrication and surface enhanced raman pro- detecting NH3 gas at room temperature, Sensors and Ac- perty of ƒower-like Au at Pd nanoparticles, Materials 7 (2), tuators, B: Chemical Volume 194, April 2014, Pages 45-50 2014, Pages 1360-1369 2849. Daupor, H., Wongnawa, S. Urchinlike Ag/AgCl photocatalyst: 2838. Wang, T; Zhang, ZS; Liao, F; Cai, Q; Li, YQ; Lee, ST; Synthesis, characterization, and activity, Applied Catalysis Shao, MW The E‚ect of Dielectric Constants on Noble A: General, Volume 473, 5 March 2014, Pages 59-69 Metal/Semiconductor SERS Enhancement: FDTD Simulation 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 59

and Experiment Validation of Ag/Ge and Ag/Si Substrates, 2827. Hu, C.-C., Yang, W., Tsai, Y.-T., Chau, Y.-F. Gap enhancement SCIENTIFIC REPORTS, 4 10.1038/srep04052 FEB 11 2014 and transmittance spectra of a periodic bowtie nanoanten- 2837. Nehm, F. , Schubert, S., M¸ller-Meskamp, L., Leo, K. Obser- na array buried in a silica substrate, (2014) Optics Commu- vation of feature ripening inversion e‚ect at the percolation nications, 324 pp. 227-233. threshold for the growth of thin silver €lms, Thin Solid Films 2826. Lee, S.H., Jamison, A.C., Ho‚man, D.M., Jacobson, A.J., Lee, 556, 2014, Pages 381-384 T.R. Preparation and characterization of polymeric thin €lms 2836. Lee, H., Kwak, J.-A., Jang, D.-J. Observation and characteri- containing gold nanoshells via electrostatic layer-by-layer zation of the surface plasmon resonances of platinum na- self-assembly, (2014) Thin Solid Films, 558 pp. 200-207. noshells, Bulletin of the Korean Chemical Society 35, Issue 2825. Wu, J., Wang, Z.M. 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Battie, Y; Naciri, AE; Chamorro, W; Horwat, D Generalized tesha, N; Jauho, AP; Burrows, A; Wubs, M; Mortensen, NA E‚ective Medium Theory to Extract the Optical Properties Blueshi† of the surface plasmon resonance in silver nano- of Two-Dimensional Nonspherical Metallic Nanoparticle La- particles studied with EELS, NANOPHOTONICS, 2 (2):131-138; yers, JOURNAL OF PHYSICAL CHEMISTRY C, 118 (9):4899- 10.1515/nanoph-2012-0032 2013 4905; 10.1021/jp4119343 MAR 6 2014 2820. Malmstrom, J., Travas-Sejdic, J. Block copolymers for protein 2831. Mattox, TM; Bergerud, A; Agrawal, A; Milliron, DJ Inƒuence of ordering, Journal of Applied Polymer ScienceVolume 131, Shape on the Surface Plasmon Resonance of Tungsten Bron- Issue 14, 15 July 2014, Article number 40360 ze Nanocrystals, CHEMISTRY OF MATERIALS, 26 (5):1779- 1784; 10.1021/cm4030638 MAR 11 2014 2819. Lee, K., Hahn, R., Schmuki, P. Photocatalytic H2 production on self-decorated Au nanoparticles/TiO2 nanotubes under 2830. Vilchis-Nestor, A.-R., Trujillo-Reyes, J., Col`In-Molina, J.A., visible light, Electrochemistry Communications Volume 43, S·nchez-Mendieta, V., Avalos-Borja, M. Biogenic silver nano- June 2014, Pages 105-108 particles on carbonaceous material from sewage sludge for degradation of methylene blue in aqueous solution, Inter- 2818. Kargar, Z., Lary, Z.A., Anbaraki, A. Systematic calculation of national Journal of Environmental Science and Technology nuclear level density parameter, Iranian Journal of Physics 11, Issue 4, May 2014, Pages 977-986 Research Volume 13, Issue 3, 2014, Pages 289-295 2829. Zhu, XM; Ma, X; Chang, HM; Tao, HZ; Zhao, XJ Morphology 2817. Bansal, A; Verma, SS Tailoring LSPR-Based Absorption and tuning of mono-disperse silver nanoparticles by reaction Scattering Eciencies of Semiconductor-Coated Au na- temperature adjustment, JOURNAL OF WUHAN UNIVERSITY noshells, PLASMONICS, 9 (2):335-341; 10.1007/s11468-013- OF TECHNOLOGY-MATERIALS SCIENCE EDITION, 29 (1):40- 9629-4 APR 2014 43; 10.1007/s11595-014-0864-0 FEB 2014 2816. Ji, A; Sharma, RP; Kumari, A; Pathak, NK Numerical Simu- 2828. Stoenescu, S., Truong, V.-V., Packirisamy, M. Non-destructive lation of Solar Cell Plasmonics for Small and Large Metal quanti€cation of alignment of nanorods embedded in unia- Nano Clusters Using Discrete Dipole Approximation, PLAS- xially stretched polymer €lms, Journal of Applied Physics, MONICS, 9 (2):291-297; 10.1007/s11468-013-9622-y APR Volume 115, Issue 11, 21 March 2014, Article number 114301 2014 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 60

2815. Lazzari, R; Simonsen, I; Jupille, J Interfacial Susceptibi- 2804. Krishnan, A. , Das, S., Krishna, S.R., Khan, M.Z.A Multilayer lities in Nanoplasmonics via Inversion of Fresnel Coef- nanoparticle arrays for broad spectrum absorption enhan- €cients, PLASMONICS, 9 (2):261-272; 10.1007/s11468-013- cement in thin €lm solar cells, Optics Express Volume 22, 9619-6 APR 2014 Issue SUPPL. 3, 2014, Pages A800-A811 2814. Stoenescu, S; Truong, VV; Packirisamy, M Dichroic Optical 2803. Bansal, A. , Verma, S.S Simulated study of plasmonic Properties of Uniaxially Oriented Gold Nanorods in Poly- coupling in noble bimetallic alloy nanosphere arrays, AIP mer Films, PLASMONICS, 9 (2):299-307; 10.1007/s11468- Advances Volume 4, Issue 5, May 2014, Article number 013-9623-x APR 2014 057104 2813. Sanz, J.M., Ortiz, D., Alcaraz de la Osa, R., Saiz, J.M., Gon- 2802. Horikoshi, S., Matsumoto, N, Omata, Y., Kato, T. Growth of zalez, F., Brown, A.S., Losurdo, M., Everitt, H.O., Moreno, F. Au nanoparticle €lms and the e‚ect of nanoparticle shape Metals for UV plasmonics, Optics InfoBase Conference Pa- on plasmon peak wavelength, Journal of Applied Physics, pers 2014, Workshop on Optical Plasmonic Materials, OPM Volume 115, Issue 19, 21 May 2014, Article number 193506 2014; Messe Berlin, Berlin; Germany; 18 March 2014 through 20 March 2014; Code 105022 2801. Feng, X. , Zhang, Y., Yan, Z., Ma, Y., Shen, Q., Liu, X., Fan, Q., Wang, L., Huang, W. Synthesis of polyaniline/Au composite 2812. Goncalves, M.R. Plasmonic nanoparticles: Fabrication, si- nanotubes and their high performance in the detection of mulation and experiments, Journal of Physics D: Applied NADH, Journal of Solid State Electrochemistry Volume 18, Physics Volume 47, Issue 21, 30 May 2014, Article number Issue 6, June 2014, Pages 1717-1723 213001 2800. Hsu, KC; Chen, DH Microwave-assisted green synthesis of 2811. Fardad, S., Salandrino, A., Heinrich, M., Zhang, P., Chen, Z., Ag/reduced graphene oxide nanocomposite as a surface- Christodoulides, D.N Plasmonic resonant solitons in metallic enhanced Raman scattering substrate with high uniformity, nanosuspensions, Nano Letters Volume 14, Issue 5, 14 May NANOSCALE RESEARCH LETTERS, 9 10.1186/1556-276X-9- 2014, Pages 2498-2504 193 APR 28 2014 2810. Lounis, S.D., Runnerstrom, E.L., Llordes, A., Milliron, D.J. De- 2799. Horikoshi, S, Matsumoto, N., Omata, Y., Kato, T. Growth of fect chemistry and Plasmon physics of colloidal metal oxide Au nanoparticle €lms and the e‚ect of nanoparticle shape Nanocrystals, Journal of Physical Chemistry Letters Volume on plasmon peak wavelength, Journal of Applied Physics 5, Issue 9, 1 May 2014, Pages 1564-1574 115 (19), 193506 (2014) 2809. Zhang, Q., Xiao, J.J. , Wang, S.L. Optical characteristics asso- 2798. Pathak, N.K. , Ji, A., Sharma, R.P. Study of eciency enhan- ciated with magnetic resonance in toroidal metamaterials cement in layered geometry of excitonic-plasmonic solar of vertically coupled plasmonic nanodisks, Journal of the cell, Applied Physics A: Materials Science and Processing Optical Society of America B: Optical Physics Volume 31, Volume 115, Issue 4, June 2014, Pages 1445-1450 Issue 5, 1 May 2014, Pages 1103-1108 2808. Mattox, T.M., Bergerud, A., Agrawal, A., Milliron, D.J. Inƒuen- 2797. Lama, P. , Suslov, A., Walser, A.D., Dorsinville, R. Plasmon ce of shape on the surface plasmon resonance of tungsten assisted enhanced nonlinear refraction of monodispersed bronze nanocrystals, Chemistry of Materials Volume 26, Is- silver nanoparticles and their tunability, Optics Express 22, sue 5, 11 March 2014, Pages 1779-1784 41792, Pages 14014-14021, (2014) 2807. Deng, Y., Shi, H., Ming, H., Liu, G., Xi, Z Inƒuence of the inter- 2796. Panizon, E., Bochicchio, D., Rossi, G., Ferrando, R. Tuning action between two Ag nanoparticles on optical properties the structure of nanoparticles by small concentrations of of Ag/PGMEA nanocomposite materials, Journal of Modern impurities, Chemistry of Materials 26, Issue 11, 10 June 2014, Optics Volume 61, Issue 4, 23 February 2014, Pages 271-275 Pages 3354-3356 2806. Pathak, N.K. , Ji, A., Sharma, R.P. Tunable Properties of Surfa- 2795. Jain, P., Arun, P. Localized surface plasmon resonance in ce Plasmon Resonances: The Inƒuence of Core-Shell Thick- SnS:Ag nano-composite €lms, Journal of Applied Physics ness and Dielectric Environment, Plasmonics Volume 9, Is- 115, Issue 20, 28 May 2014, Article number 204512 sue 3, June 2014, Pages 651-657 2794. Battie, Y., Resano-Garcia, A., Chaoui, N., Zhang, Y., En Na- 2805. Kumar, K.V.A., Sajna, M.S., Thomas, V., Joseph, C., Unnikrish- ciri, A. Extended Maxwell-Garnett-Mie formulation applied nan, N.V. Plasmonic and Energy Studies of Ag Nanoparticles to size dispersion of metallic nanoparticles embedded in in Silica-Titania Hosts, Plasmonics Volume 9, Issue 3, June host liquid matrix, Journal of Chemical Physics 140, Issue 4, 2014, Pages 631-636 2014, Article number 044705 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 61

2793. Koleva, M.E. , Nedyalkov, N.N., Atanasov, P.A. E‚ect of the 2783. Wang, H. , Vial, A. Tunability of LSPR using gold nano- plasmon-exciton coupling on the optical response of a particles embedded in a liquid crystal cell, Journal of Quan- ZnO/Ag/ZnO nanocomposite, Journal of Physics: Conferen- titative Spectroscopy and Radiative Transfer Volume 146, ce Series Volume 514, Issue 1, 2014, Article number 012031 October 2014, Pages 492-498 18th International Summer School on Vacuum, Electron and 2782. Daneshfar, N Temperature dependence of the op- Ion Technologies, VEIT 2013; Sozopol; United Kingdom; 7 tical characteristics and surface plasmon resonance October 2013 through 11 October 2013; Code 105664 of core-shell nanoparticles, PHYSICS OF PLASMAS, 21 2792. Terentyuk, G.S., Maksimova, I.L., Dikht, N.I., Terentyuk, A.G., (6):10.1063/1.4880595 JUN 2014 Khlebtsov, B.N., Khlebtsov, N.G., Tuchin, V.V. Cancer laser therapy using gold nanoparticles, Lasers for Medical Appli- 2781. Shiohara, A., Langer, J., Polavarapu, L., Liz-Marzan,´ L.M. So- cations: Diagnostics, Therapy and Surgery September 2013, lution processed polydimethylsiloxane/gold nanostar ƒexi- Pages 659-703 ble substrates for plasmonic sensing, Nanoscale, Volume 6, Issue 16, 21 August 2014, Pages 9817-9823 2791. Badawy, S.M. Green synthesis and characterisations of an- tibacterial silver-polyvinyl alcohol nanocomposite €lms for 2780. Ajith, R., Mathew, V., Arun, P. Surface plasmon resonance of wound dressing , Green Processing and Synthesis 3, Issue dumbbell nanostructure, Physica Scripta Volume 89, Issue 3, 1 June 2014, Pages 229-234 8, 1 August 2014, Article number 085501 2790. Li, JB; Wu, WL; Han, C; Zhang, SJ; Zhou, HY; Guo, JW Aggrega- 2779. Singh, A., Chernenko, T., Amiji, M. Theranostic applications tion behavior of pH- and thermo-responsive block copoly- of plasmonic nanosystems, ACS Symposium Series Volume mer protected gold nanoparticles, COLLOID AND POLYMER 1113, 26 November 2012, Pages 383-413 SCIENCE, 292 (7):1657-1664; 10.1007/s00396-014-3225-9 2778. Wang, Q., Cui, X., Guan, W., Zhang, L., Fan, X., Shi, Z., Zheng, JUL 2014 W. Shape-dependent catalytic activity of oxygen reduction 2789. Tian, XD; Zhou, YD; Thota, S; Zou, SL; Zhao, J Plasmo- reaction (ORR) on silver nanodecahedra and nanocubes, nic Coupling in Single Silver Nanosphere Assemblies by Journal of Power Sources Volume 269, 10 December 2014, Polarization-Dependent Dark-Field Scattering Spectroscopy, Pages 152-157 JOURNAL OF PHYSICAL CHEMISTRY C, 118 (25):13801-13808; 10.1021/jp503505x JUN 26 2014 2777. Antropova, T., Girsova, M., An€mova, I., Drozdova, I., Polya- kova, I., Vedishcheva, N. Structure and spectral properties 2788. Klimov, V; Guo, GY; Pikhota, M Plasmon Resonances in Me- of the photochromic quartz-like glasses activated by silver tal Nanoparticles with Sharp Edges and Vertices: A Material halides, Journal of Non-Crystalline Solids, Volume 401, 1 Oc- Independent Approach, JOURNAL OF PHYSICAL CHEMISTRY tober 2014, Pages 139-141 C, 118 (24):13052-13058; 10.1021/jp412349f JUN 19 2014 2776. Yuan, P., Ma, R., Guan, Z., Gao, N., Xu, Q.-H. Tuning two- 2787. Meier, DC; Cavicchi, RE Forming spherical gold nanopar- photon photoluminescence of gold nanoparticle aggregates ticles from polymorphic nanoparticles using a single la- with DNA and its application as turn-on photoluminescence ser pulse, JOURNAL OF NANOPARTICLE RESEARCH, 16 (7):1-7; probe for DNA sequence detection, ACS Applied Materials 10.1007/s11051-014-2460-9 JUN 12 2014 and Interfaces Volume 6, Issue 15, 13 August 2014, Pages 2786. Lee, K ; Hahn, R ; Schmuki, P Photocatalytic H-2 production 13149-13156 on self-decorated Au nanoparticles/TiO2 nanotubes under visible light, ELECTROCHEMISTRY COMMUNICATIONS 43 Pa- 2775. Navas, M.P. , Soni, R.K. Laser generated Ag and Ag-Au com- ges: 105-108, DOI: 10.1016/j.elecom.2014.04.002, JUN 2014 posite nanoparticles for refractive index sensor, Applied Physics A: Materials Science and Processing Volume 116, 2785. Wang, Q., Cui, X., Guan, W., Zhang, L., Fan, X., Shi, Z., Zheng, Issue 3, September 2014, Pages 879-886 W. Shape-dependent catalytic activity of oxygen reduction reaction (ORR) on silver nanodecahedra and nanocubes, 2774. Chander, N., Khan, A.F., Thouti, E., Sardana, S.K., Chandra- Journal of Power Sources Volume 269, 10 December 2014, sekhar, P.S., Dutta, V., Komarala, V.K. Size and concentration Pages 152-157 e‚ects of gold nanoparticles on optical and electrical pro- perties of plasmonic dye sensitized solar cells, Solar Energy 2784. Ishikawa, Y., Yao, H. Surface magnetoplasmons in silver na- Volume 109, November 2014, Pages 11-23 noparticles: Apparent magnetic-€eld enhancement mani- fested by simultaneous deconvolution of UV-vis absorption 2773. Du, J., Zhu, B., Peng, X., Chen, X Optical reading of contami- and MCD spectra, Chemical Physics Letters Volume 609, 5 nants in aqueous media based on gold nanoparticles, Small August 2014, Pages 93-97 Volume 10, Issue 17, 10 September 2014, Pages 3461-3479 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 62

2772. de Leon, YP; Pichardo-Molina, JL; Ochoa, NA Growth Kine- 2761. Huang, F; Zhou, JC; Xu, J; Wang, YS Reversible self-assembly tics of Concave Nanocubes Studied by Optical Coherence of MxS (M = Cu, Ag) nanocrystals through ligand exchange, Tomography, PLASMONICS, 9 (4):907-915; 10.1007/s11468- CRYSTENGCOMM, 16 (40):9478-9481; 10.1039/c4ce00646a 014-9696-1 AUG 2014 2014 2771. Soomro, R.A., Nafady, A., Sirajuddin, Memon, N., Sherazi, 2760. Deng, W; Goldys, EM Chemical sensing with nanoparti- T.H., Kalwar, N.H. L-cysteine protected copper nanoparticles cles as optical reporters: from noble metal nanoparticles as colorimetric sensor for mercuric ions, Talanta Volume to quantum dots and upconverting nanoparticles, ANALYST, 130, 1 December 2014, Pages 415-422 139 (21):5321-5334; 10.1039/c4an01272k 2014 2770. Lee, Y., Abasaki, M., Portela, A., Delaunay, J.-J. E‚ective 2759. Zhang, P; Li, SB; Liu, CH; Wei, XB; Wu, ZM; Jiang, YD; Chen, Z light concentration in gold short nanosphere chain on pla- Near-infrared optical absorption enhanced in black silicon tinum mirror for surface-enhanced Raman scattering, Ap- via Ag nanoparticle-induced localized surface plasmon, NA- plied Physics Letters Volume 105, Issue 12, 22 September NOSCALE RESEARCH LETTERS, 9 10.1186/1556-276X-9-519 2014, Article number 121114 SEP 22 2014 2769. Bisio, F; Zaccaria, RP; Moroni, R; Maidecchi, G; Alabastri, 2758. Grigorchuk, N.I. Sensitivity of surface plasmon resonances A; Gonella, G; Giglia, A; Andol€, L; Nannarone, S; Mattera, in spheroidal metal nanoparticles, European Physical Jour- L; Canepa, M Pushing the High-Energy Limit of Plasmonics, nal B Volume 87, Issue 10, 1 October 2014, Article number ACS NANO, 8 (9):9239-9247; 10.1021/nn503035b SEP 2014 b140571 2768. Deschaume, O; De Roo, B; Van Bael, MJ; Locquet, JP; Van 2757. Zhu, SM; Fan, CZ; Wang, JQ; He, JN; Liang, EJ Surface- Haesendonck, C; Bartic, C Synthesis and Properties of Gold enhanced Raman scattering of 4-mercaptobenzoic acid Nanoparticle Arrays Self-Organized on Surface-Deposited and hemoglobin adsorbed on self-assembled Ag mo- Lysozyme Amyloid Sca‚olds, CHEMISTRY OF MATERIALS, 26 nolayer €lms with di‚erent shapes, APPLIED PHYSICS (18):5383-5393; 10.1021/cm502652t SEP 23 2014 A-MATERIALS SCIENCE & PROCESSING, 117 (3):1075-1083; 2767. Hsu, KC; Chen, DH Green synthesis and synergistic catalytic 10.1007/s00339-014-8548-3 NOV 2014 e‚ect ofAg/reduced graphene oxide nanocomposite, NA- 2756. Alsawa†a, M; Wahbeh, M; Truong, VV E‚ect of symmetry NOSCALE RESEARCH LETTERS 9, Article Number: 484, DOI: breaking and substrate on the optical properties of silver 10.1186/1556-276X-9-484 Published: SEP 11 2014 sphere-like nanoparticles in di‚erent surrounding media, 2766. Lee, D., Jang, D.-J. Charge-carrier relaxation dynamics of Proceedings of SPIE - The International Society for Optical poly(3-hexylthiophene)-coated gold hybrid nanoparticles, Engineering 9288, 92881A, 2014, 9288 10.1117/12.2086149 Polymer, Volume 55, Issue 21, 9 October 2014, Pages 5469- 2014 5476 2755. Berco, D; Hu, CK A Spherical Harmonic Transform Spec- 2765. Lee, H., Kwak, J.-A., Jang, D.-J. Laser-induced fabrication of tral Analysis of a Localized Surface Plasmon on a Gold hollow platinum nanospheres for enhanced catalytic perfor- Nano Shell, JOURNAL OF COMPUTATIONAL CHEMISTRY, 35 mances, Journal of Physical Chemistry C Volume 118, Issue (30):2225-2230; 10.1002/jcc.23741 NOV 15 2014 39, 2 October 2014, Pages 22792-22798 2754. Li, W.-Y., Chen, F.-Y E‚ects of shape and dopant on struc- 2764. Ghanaatshoar, M., Moradi, M., Tohidi, P. Surface plasmon tural, optical absorption, Raman, and vibrational properties resonance enhancement of the magneto-optical Kerr e‚ect of silver and copper quantum clusters: A density functio- in Cu/Co/Ag/SnO2 structure, EPJ Applied Physics Volume 68, nal theory study, Chinese Physics B Volume 23, Issue 11, 1 Issue 1, 1 October 2014, Article number 10402 November 2014, Article number 117103 2763. Amendola, V., Meneghetti, M., Stener, M., Guo, Y., Chen, S., 2753. Huang, F., Zhou, J., Xu, J., Wang, Y Reversible self-assembly Crespo, P., Garc´ıa, M.A., Hernando, A., Pengo, P., Pasquato, of MxS (M = Cu, Ag) nanocrystals through ligand exchan- L. Physico-Chemical Characteristics of Gold Nanoparticles, ge, CrystEngComm Volume 16, Issue 40, 28 October 2014, Comprehensive Analytical Chemistry Volume 66, 2014, Pa- Pages 9478-9481 ges 81-12 2752. Jung, H., Koo, B., Kim, J.-Y., Kim, T., Son, H.J., Kim, B., Kim, 2762. Adhyaksa, GWP; Baek, SW; Lee, GI; Lee, DK; Lee, JY; Kang, J.Y., Lee, D.-K., Kim, H., Cho, J., Ko, M.J. Enhanced photovol- JK Coupled Near- and Far-Field Scattering in Silver Na- taic properties and long-term stability in plasmonic dye- noparticles for High-Eciency, Stable, and Thin Plasmo- sensitized solar cells via noncorrosive redox mediator, ACS nic Dye-Sensitized Solar Cells, CHEMSUSCHEM, 7 (9):2461- Applied Materials and Interfaces, Volume 6, Issue 21, 12 No- 2468; 10.1002/cssc.201402146 SEP 2014 vember 2014, Pages 19191-19200 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 63

2751. Giannini, R., Hafner, C., Lo„er, J.F. Axis-selective excitation 2741. Xia, Z., Song, T. , Sun, J., Lee, S.-T., Sun, B. Plasmonic en- of gold nanoparticle resonances, Journal of the Optical So- hancement in hybrid organic/Si heterojunction solar cells ciety of America B: Optical Physics, Volume 31, Issue 11, 1 enabled by embedded gold nanoparticles, Applied Physics November 2014, Pages 2621-2627 Letters Volume 105, Issue 24, 15 December 2014, Article number 241110 2750. Xiao, G., Man, S., Shi, W., Feng, J. Surface plasmon reso- nance and surface-enhanced Raman scattering activity of 2740. Tyshetskiy, Y. Vladimirov, S.V., Kompaneets, R. A new type SiO2-Au core-cap nanostructure arrays, Applied Physics A: of surface waves in a fully degenerate quantum plasma, Materials Science and Processing Volume 117, Issue 4, 18 Physics of Plasmas Volume 21, Issue 12, 1 December 2014, November 2014, Pages 1907-1914 Article number 122114 2739. Dubrovin, V.D., Ignatiev, A.I., Nevedomskii, V.M., Nikonorov, 2749. Wan, M.L. , Sun, X.J., Song, Y.L., Li, Y., Zhou, F.Q. Plasmonic N.V., Sidorov, A.I., Tsekhomskii, V.A. The inƒuence of synthe- analogue of electromagnetically induced transparency in a sis conditions and ultraviolet irradiation on the morphology T-shaped metallic nanohole array and its sensing perfor- and concentration of silver nanocrystals in photothermo- mance, Modern Physics Letters B Volume 28, Issue 29, 20 refractive glasses, Glass Technology: European Journal of November 2014, Article number 1450231 Glass Science and Technology Part A Volume 55, Issue 6, 1 2748. Bansal, A. , Verma, S.S. Optical response of noble metal December 2014, Pages 191-195 alloy nanostructures, Physics Letters, Section A: General, 2738. Barcaro, G., Sementa, L., Fortunelli, A., Stener, M. Optical Atomic and Solid State Physics Volume 379, Issue 3, 23 Ja- properties of Pt and Ag-Pt nanoclusters from TDDFT cal- nuary 2015, Pages 163-169 culations: Plasmon suppression by pt poisoning, Journal of 2747. Tsuboi, A., Nakamura, K., Kobayashi, N. Multicolor elec- Physical Chemistry C Volume 118, Issue 48, 4 December trochromism showing three primary color states (cyan- 2014, Pages 28101-28108 magenta-yellow) based on size- and shape-controlled silver 2737. Yoo, S., Kim, J. E‚ect of the additional anode layers on the nanoparticles, Chemistry of Materials Volume 26, Issue 22, absorption enhancement characteristic of plasmonic orga- 25 November 2014, Pages 6477-6485 nic solar cells, Japanese Journal of Applied Physics Volume 53, Issue 12, 1 December 2014, Article number 122302 2746. Liow, C., Meng, F., Chen, X., Li, S. Dependence of plasmonic properties on electron densities for various coupled Au na- 2736. Wu, J; Li, W; Hajisalem, G; Lukach, A; Kumacheva, E; Hof, nostructures, Journal of Physical Chemistry C Volume 118, F; Gordon, R Trace cancer biomarker quanti€cation using Issue 47, 26 November 2014, Pages 27531-27538 polystyrene-functionalized gold nanorods, BIOMEDICAL OP- TICS EXPRESS, 5 (12):4101-4107; 10.1364/BOE.5.004101 DEC 2745. Bottomley, A., Ianoul, A. Reƒection and absorption spectra 1 2014 of silver nanocubes on a dielectric substrate: Anisotropy, angle, and polarization dependencies, Journal of Physical 2735. Claro, F; Fuchs, R; Robles, P; Rojas, R The e‚ect of dissipation Chemistry C Volume 118, Issue 47, 26 November 2014, Pages on the torque and force experienced by nanoparticles in an 27509-27515 AC €eld, INTERNATIONAL JOURNAL OF MODERN PHYSICS B, 29 (1):10.1142/S0217979214502403 JAN 10 2015 2744. Furtado, LAD; Gomez-Malagon, LA Simulation of the Linear 2734. Ji, A. , Sharma, R.P., Kumari, A., Pathak, N.K. Numerical si- and Nonlinear Optical Properties of Colloids Containing Me- mulation of solar cell plasmonics for small and large metal tallic Core-Dielectric Shell Nanoellipsoids, PLASMONICS, 9 nano clusters using discrete dipole approximation, Plasmo- (6):1377-1389; 10.1007/s11468-014-9753-9 DEC 2014 nics Volume 9, Issue 2, 1 January 2014, Pages 291-297 2743. Li, CH; Jamison, AC; Rittikulsittichai, S; Lee, TC; Lee, TR In 2733. Stoenescu, S., Truong, V.-V., Packirisamy, M. Dichroic optical Situ Growth of Hollow Gold-Silver Nanoshells within Porous properties of uniaxially oriented gold nanorods in polymer Silica O‚ers Tunable Plasmonic Extinctions and Enhanced €lms, Plasmonics Volume 9, Issue 2, 1 January 2014, Pages Colloidal Stability, ACS APPLIED MATERIALS & INTERFACES, 6 299-307 (22):19943-19950; 10.1021/am505424w NOV 26 2014 2732. In, S., Mason, D.R., Lee, H., Jung, M., Lee, C., Park, N. En- 2742. Schlesinger, M., Giese, M., Blusch, L.K., Hamad, W.Y., Ma- hanced light trapping and power conversion eciency in clachlan, M.J. Chiral nematic cellulose-gold nanoparticle ultrathin plasmonic organic solar cells: A coupled optical- composites from mesoporous photonic cellulose, Chemical electrical multiphysics study on the e‚ect of nanoparticle Communications Volume 51, Issue 3, 11 January 2015, Pages geometry, ACS Photonics Volume 2, Issue 1, 21 January 2015, 530-533 Pages 78-85 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 64

2731. Liu, DL; Li, CC; Zhou, F; Zhang, T; Zhang, HH; Li, XY; 2721. Gao, F., Yang, Y., Wang, T. Preparation of porous TiO2/Ag Duan, GT; Cai, WP; Li, Y Rapid Synthesis of Monodisper- heterostructure €lms with enhanced photocatalytic activity, se Au Nanospheres through a Laser Irradiation-Induced 2015 Chemical Engineering Journal 270, pp. 418-427 Shape Conversion, Self-Assembly and Their Electromag- 2720. Bisio, F., Gonella, G., Maidecchi, G., (...), Giglia, A., Canepa, netic Coupling SERS Enhancement, SCIENTIFIC REPORTS, 5 M. Broadband plasmonic response of self-organized alumi- 10.1038/srep07686 JAN 8 2015 nium nanowire arrays, 2015 Journal of Physics D: Applied 2730. Macias-Montero, M., Pelaez, R.J., Rico, V.J., Saghi, Z., Mid- Physics 48 (18), 184003 gley, P., Afonso, C.N., Gonzalez-Elipe, A.R., Borras, A. Laser 2719. Nidya, M., Umadevi, M., Sankar, P., Philip, R., Rajkumar, treatment of Ag at ZnO nanorods as long-life-span SERS B.J.M. L-Phenylalanine functionalized silver nanoparticles: surfaces, ACS Applied Materials and Interfaces Volume 7, Photocatalytic and nonlinear optical applications, 2015 Op- Issue 4, 4 February 2015, Pages 2331-2339 tical Materials 42, pp. 152-159

2729. Deng, Y., Ming, H., Liu, G., Shi, H. Size dependence of simu- 2718. Ong, H.R., Khan, M.M.R., Ramli, R., (...), Xi, S., Yunus, R.M. lated optical properties for Cu nanocubes, European Phy- Facile synthesis of copper nanoparticles in glycerol at room sical Journal D Volume 69, Issue 2, February 2015, Article temperature: Formation mechanism, 2015 RSC Advances 5 number 37 (31), pp. 24544-24549 2717. Kuppusamy, P., Ichwan, S.J.A., Parine, N.R., (...), Maniam, G.P., 2728. Ben Aissa, M.A., Tremblay, B., Andrieux-Ledier, A., (...), Govindan, N. Intracellular biosynthesis of Au and Ag nano- Raoua€, N., Courty, A. Copper nanoparticles of well- particles using ethanolic extract of Brassica oleracea L. and controlled size and shape: A new advance in synthesis and studies on their physicochemical and biological properties, self-organization, 2015 Nanoscale 7 (7), pp. 3189-3195 2015 Journal of Environmental Sciences (China) 29, pp. 151- 2727. Hyun, J.Y., Yun, C., Kim, K.H., Kim, W.H., Jeon, S.-W., Im, 157 W.B., Kim, J.P. Control of the plasmon resonance from poly- 2716. Chinh, V.D., Trung, N.Q. Synthesis and optical properties of dispersed silver nanoparticles, Japanese Journal of Applied colloidal Au-Ag alloy nanoparticles, 2015 International Jour- Physics Volume 54, Issue 2, 1 February 2015, Article number nal of Nanotechnology 12 (5-7), pp. 515-524 02BD02 2715. Cuevas, R., Duran, N., Diez, M.C., Tortella, G.R., Rubilar, O. 2726. Zhao, C., Zhu, Y., Su, Y., (...), Xiang, R., Tang, Z. Tailoring plas- Extracellular biosynthesis of copper and copper oxide na- mon resonances in aluminium nanoparticle arrays fabrica- noparticles by Stereum hirsutum, a native white-rot fungus ted using anodic aluminium oxide, 2015 Advanced Optical from chilean forests, 2015 Journal of Nanomaterials 2015, Materials 3 (2), pp. 248-256 789089

2725. Fernandez, R., Gutierrez, J., Eceiza, A., Tercjak, A. Hybrid ma- 2714. Bouhadoun, S., Guillard, C., Dapozze, F., F; Singh, S; Amans, terials based on azopolymer and sol-gel synthesized silver- D, Boucle, J., Herlin-Boime, N. One step synthesis of N- containing titanium oxide nanoparticles with photoinduced doped and Au-loaded TiO2 nanoparticles by laser pyroly- birefringence, 2015 Source of the DocumentRSC Advances sis: Application in photocatalysis, 2015 Applied Catalysis B: 5 (20), pp. 15740-15748 Environmental 174-175, pp. 367-375 2713. Franco, D.F., SantAna, A.C., De Oliveira, L.F.C., Silva, M.A.P. 2724. Can-Uc, B., Rangel-Rojo, R., Marquez, H., Rodriguez- The Sb2O3 redox route to obtain copper nanoparticles in Fernandez, L., Oliver, A. Nanoparticle containing chan- glasses with plasmonic properties, 2015 Journal of Materials nel waveguides produced by a multi-energy masked ion- Chemistry C 3 (15), pp. 3803-3808 implantation process, 2015 Optics Express 23 (3), pp. 3176- 3185 2712. Resano-Garcia, A., Battie, Y., En Naciri, A., Akil, S., Chaoui, N. Experimental and theoretical determination of the plasmo- 2723. Rosenkrantz, E., Arnon, S. Local surface plasmon tuning for nic responses and shape distribution of colloidal metallic optical devices, 2015 IEEE Photonics Technology Letters 27 nanoparticles, 2015 Journal of Chemical Physics 142 (13), (6), 7012098, pp. 669-672 134108 2722. Barabadi, H., Honary, S., Ebrahimi, P., (...), Alizadeh, A., 2711. Cardoso-Avila, P.E., Pichardo-Molina, J.L., Krishna, C.M., Naghibi, F. Microbial mediated preparation, characteriza- Castro-Beltran, R. Photochemical transformation of silver tion and optimization of gold nanoparticles, 2014 Brazilian nanoparticles by combining blue and green irradiation, Journal of Microbiology 45 (4), pp. 1493-1501 2015 Journal of Nanoparticle Research 17 (3) 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 65

2710. Kuisma, M., Sakko, A., Rossi, T.P., Larsen, AH; Enkovaa- 2699. Liu, M., Xue, X., Ghosh, C., (...), Swihart, M.T., Prasad, P.N. ra, J, Lehtovaara, L., Rantala, T.T. Localized surface plas- Room-temperature synthesis of covellite nanoplatelets with mon resonance in silver nanoparticles: Atomistic €rst- broadly tunable localized surface plasmon resonance, 2015 principles time-dependent density-functional theory calcu- Chemistry of Materials 27 (7), pp. 2584-2590 lations, 2015 Physical Review B - Condensed Matter and Materials Physics 91 (11), 115431 2698. Soomro, RA; Nafady, A; Sirajuddin; Sherazi, STH; Kalwar, NH; Shah, MR; Hallam, KR Catalytic Reductive Degradation of 2709. Gupta, R.K., Dubey, M., Li, P.Z., Xu, Q., Pandey, D.S. Size- Methyl Orange Using Air Resilient Copper Nanostructures, controlled synthesis of Ag nanoparticles functionalized by JOURNAL OF NANOMATERIALS, 10.1155/2015/136164 2015 heteroleptic dipyrrinato complexes having meso- pyridyl substituents and their catalytic applications, 2015 Inorganic 2697. Monti, A; Alu, A; Toscano, A; Bilotti, F Optical invisibility Chemistry 54 (6), pp. 2500-2511 through metasurfaces made of plasmonic nanoparticles, JOURNAL OF APPLIED PHYSICS, 117 (12):10.1063/1.4916257 2708. Zhou, N., Lopez-Puente, V., Wang, Q., (...), Pastoriza-Santos, MAR 28 2015 I., Xu, Q.-H. Plasmon-enhanced light harvesting: Applica- tions in enhanced photocatalysis, photodynamic therapy 2696. Bothra, S., Kumar, R., Pati, R.K., (...), Choi, H.-J., Sahoo, S.K. and photovoltaics, 2015 RSC Advances 5 (37), pp. 29076- Virgin silver nanoparticles as colorimetric nanoprobe for si- 29097 multaneous detection of iodide and bromide ion in aqueous medium, 2015 Spectrochimica Acta - Part A: Molecular and 2707. Lee, D., Yoon, S. Gold nanocube-nanosphere dimers: Pre- Biomolecular Spectroscopy Volume 149, 5 October 2015, paration, plasmon coupling, and surface-enhanced raman Pages 122-126 scattering, 2015 Journal of Physical Chemistry C 119 (14), pp. 7873-7882 2695. Emam, A.N., Mohamed, M.B., Girgis, E., Rao, K.V. Hy- brid magnetic-plasmonic nanocomposite: Embedding co- 2706. Wan, M., Yuan, S., Dai, K., Song, Y., Zhou, F. Electromag- balt clusters in gold nanorods, 2015 RSC Advances 5 (44), netically induced transparency in a planar complementary pp. 34696-34703 metamaterial and its sensing performance, 2015 Optik 126 (5), pp. 541-544 2694. Hung, W.H., Lai, S.N., Lo, A.Y. Synthesis of strong light scat- tering absorber of TiO2-CMK-3/Ag for photocatalytic wa- 2705. Sun, Y., Jiang, L., Zhong, L., Jiang, Y., Chen, X. Towards active ter splitting under visible light irradiation, 2015 ACS Applied plasmonic response devices, 2015 Nano Research 8 (2), pp. Materials and Interfaces 7 (16), pp. 8412-8418 406-417 2693. Zopes, D., Hegemann, C., Schlafer,¨ J., Tyrra, W., Mathur, S. 2704. Nedyalkov, N., Nikov, R., Koleva, M., (...), Delaporte, P., Gro- Single-source precursors for alloyed gold-silver nanocrys- jo, D. Nanoparticle-decorated ceramic as substrate in sur- tals - A molecular metallurgy approach 2015 Inorganic Che- face enhanced Raman spectroscopy, 2015 Applied Surface mistry 54 (8), pp. 3781-3787 Science 336, pp. 16-20 2692. Soomro, R.A., Nafady, A., Sirajuddin, (...), Shah, M.R., Ha- 2703. Borges, J., Kubart, T., Kumar, S., (...), Cavaleiro, A., Vaz, F. llam, K.R. Catalytic reductive degradation of methyl orange Microstructural evolution of Au/TiO2 nanocomposite €lms: using air resilient copper nanostructures, 2015 Journal of The inƒuence of Au concentration and thermal annealing, Nanomaterials 2015, 136164 2015 Thin Solid Films 580, pp. 77-88 2691. Chahal, R.P., Mahendia, S., Tomar, A.K., Kumar, S. UV irradia- 2702. Giannini, R., Hafner, C.V., Lo„er, J.F. Scaling behavior of in- ted PVA-Ag nanocomposites for optical applications, 2015 dividual nanoparticle plasmon resonances, 2015 Journal of Applied Surface Science 343, pp. 160-165 Physical Chemistry C 119 (11), pp. 6138-6147 2690. Claro, F., Fuchs, R., Robles, P., Rojas, R. The e‚ect of dissipa- 2701. Manai, L., Rezgui, B.D., Bou, A., (...), Palais, O., Bessais, B. En- tion on the torque and force experienced by nanoparticles hanced light trapping using plasmonic nanoparticles, 2015 in an AC €eld, 2015 International Journal of Modern Physics Journal of Physics: Conference Series 596 (1), 012002 B 29 (1), 1450240

2700. De Sio, L., Placido, T., Comparelli, R., (...), Tabiryan, N., Bun- 2689. Navas, MP; Soni, RK Laser-Generated Bimetallic Ag-Au and ning, T.J. Next-generation thermo-plasmonic technologies Ag-Cu Core-Shell Nanoparticles for Refractive Index Sen- and plasmonic nanoparticles in optoelectronics, 2015 Pro- sing, PLASMONICS, 10 (3):681-690; 10.1007/s11468-014- gress in Quantum Electronics 41, pp. 23-70 9854-5 JUN 2015 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 66

2688. Zhu, Y., Yang, S., Cai, J., Meng, M., Li, X. A facile synthe- 2677. Cuenya, BR; Behafarid, F Nanocatalysis: size- and sis of AgxAu1-x/TiO2 photocatalysts with tunable surface shape-dependent chemisorption and catalytic reac- plasmon resonance (SPR) frequency used for RhB photode- tivity, SURFACE SCIENCE REPORTS, 70 (2):135-187; gradation, 2015 Materials Letters 154, pp. 163-166 10.1016/j.surfrep.2015.01.001 JUN 2015

2687. Kumar, B., Kaur, G., Rai, S.B. Study of laser ablated copper 2676. Nair, G; Singh, HJ; Ghosh, A Tuning the chiro-plasmonic nanoparticles in di‚erent liquids and their e‚ect on optical response using high refractive index-dielectric templates, properties of Tb3+ in PVA, 2015 Indian Journal of Physics JOURNAL OF MATERIALS CHEMISTRY C, 3 (26):6831-6835; 89 (6), pp. 629-634 10.1039/c5tc00922g 2015

2686. Amendola, V., Saija, R., Marago, O.M., Iati, M.A. Superior 2675. Hou, H; Chen, LM; He, HL; Chen, LZ; Zhao, ZL; Jin, YD Fine- plasmon absorption in iron-doped gold nanoparticles, 2015 tuning the LSPR response of gold nanorod-polyaniline core- Nanoscale 7 (19), pp. 8782-8792 shell nanoparticles with high photothermal eciency for 2685. Zhou, N., Ye, C., Polavarapu, L., Xu, Q.-H. Controlled prepa- cancer cell ablation, JOURNAL OF MATERIALS CHEMISTRY B, ration of Au/Ag/SnO2 core-shell nanoparticles using a pho- 3 (26):5189-5196; 10.1039/c5tb00556f 2015 tochemical method and applications in LSPR based sensing, 2674. Ji, A; Sharma, R; Pathak, H; Pathak, NK; Sharma, RP Nume- 2015 Nanoscale 7 (19), pp. 9025-9032 rical simulation of plasmonic light trapping in thin-€lm Si 2684. Desai, D., Datta, M. Green synthesis of silver antimicrobials solar cells: surface coverage e‚ect, JOURNAL OF PHYSICS D- for its potential application in control of nosocomial infec- APPLIED PHYSICS, 48 (27):10.1088/0022-3727/48/27/275101 tions, 2015 Asian Journal of Pharmaceutical and Clinical Re- JUL 15 2015 search 8 (3), pp. 219-223 2673. Li, JF; Tian, ZQ Shell-Isolated Nanoparticle-Enhanced Ra- 2683. Al-Azawi, MA; Bidin, N; Abdullah, M; Ali, AK; Hassoon, KI; man Spectroscopy (SHINERS), Li, Jian-Feng; Tian, Zhong- Khaldoon, NA; Al-Asedy, HJ Surface plasmon resonance ef- Qun, Edited by: Ozaki Y; Kneipp K; Aroca R, FRONTIERS fects of gold colloids on optical properties of N719 dye in OF SURFACE-ENHANCED RAMAN SCATTERING: SINGLE NANO- ethanol, JOURNAL OF OPTOELECTRONICS AND ADVANCED PARTICLES AND SINGLE CELLS, 163-192; 2014 MATERIALS, 17 (3-4):264-269; MAR-APR 2015 2672. Gergely-Fulop, E; Nagy, N; Deak, A Langmuir-Blodgett Films 2682. Verma, S., Rao, B.T., Bhartiya, S., Sathe, V., Kukreja, L.M. of Gold Nanorods with Di‚erent Silica Shell Thicknes- Growth temperature dependent surface plasmon resonan- ses, PERIODICA POLYTECHNICA-CHEMICAL ENGINEERING, 59 ces of densely packed gold nanoparticles’€lms and their ro- (2):104-110; 10.3311/PPch.7596 2015 le in surface enhanced Raman scattering of Rhodamine6G, 2015 Applied Surface Science 346, pp. 379-387 2671. Tsai, MS; Liu, TK; Tsen, CY; Ting, CC Polarization sensi- tivity of light di‚raction for periodic array of anisotro- 2681. Lin, GJ; Zhang, Q; Lin, XY; Zhao, DF; Jia, R; Gao, NK; Zuo, pic gold nanoparticles, APPLIED PHYSICS LETTERS, 106 ZY; Xu, XG; Liu, D Enhanced photoluminescence of ga- (24):10.1063/1.4922808 JUN 15 2015 llium phosphide by surface plasmon resonances of me- tallic nanoparticles, RSC ADVANCES, 5 (60):48275-48280; 2670. Sardana, SK; Chava, VSN; Komarala, VK Morphology and 10.1039/c5ra07368e 2015 optical properties of sputter deposited silver nanoparti- 2680. Zhang, F., Zhu, J., Li, J.-J., Zhao, J.-W. A promising direct vi- cles on plain, textured and antireƒection layer coated sualization of an Au at Ag nanorod-based colorimetric sen- textured silicon, APPLIED SURFACE SCIENCE, 347 651-656; sor for trace detection of alpha-fetoprotein, (2015) Journal 10.1016/j.apsusc.2015.04.145 AUG 30 2015 of Materials Chemistry C, 3 (23), pp. 6035-6045. 2669. Erola, M.O.A., Philip, A., Ahmed, T., Suvanto, S., Pakkanen, 2679. Alcaraz De La Osa, R., Sanz, J.M., Barreda, A.I., Saiz, J.M., T.T. Fabrication of AU- and Ag-SiO2 inverse opals having Gonzalez, F., Everitt, H.O., Moreno, F. Rhodium Tripod Stars both localized surface plasmon resonance and Bragg dif- for UV Plasmonics, (2015) Journal of Physical Chemistry C, fraction, 2015 Journal of Solid State Chemistry 230, 18964, 119 (22), pp. 12572-12580. pp. 209-217 2678. Napoles-Duarte, J.M., Chavez-Rojo, M.A., Fuentes-Montero, 2668. Streltsov, D.R., Mailyan, K.A., Gusev, A.V., (...), Chvalun, S.N., M.E., Rodriguez-Valdez, L.M., Garcia-Llamas, R., Gaspar- Ivanov, D.A. Structure and optical properties of thin poly(p- Armenta, J.A. Surface plasmon resonances in Drude me- xylylene) - Silver nanocomposite €lms prepared by low- tal cylinders: Radius dependence and quality factor, (2015) temperature vapor deposition polymerization, 2015 Poly- Journal of Optics (United Kingdom), 17 (6), art. no. 065003. mer (United Kingdom) 71, pp. 60-69 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 67

2667. Monti, A., Alu, A., Toscano, A., Bilotti, F. Optical invisibility th- Thin Films: Experimental and Discrete Dipole Approximation rough metasurfaces made of plasmonic nanoparticles, 2015 Results, PLASMONICS, 10 (4):861-872; 10.1007/s11468-014- Journal of Applied Physics 117 (12), 123103 9873-2 AUG 2015 2666. Diaz-Egea, C., Abargues, R., Martinez-Pastor, J.P., (...), van 2656. Lovatel, R.H., Neves, R.M., Oliveira, G.R., (...), Carli, L.N., Aken, P.A., Molina, S.I. High spatial resolution mapping of Giovanela, M. Disinfection of biologically treated industrial individual and collective localized surface plasmon reso- wastewater using montmorillonite/alginate/nanosilver hy- nance modes of silver nanoparticle aggregates: correlation brids, 2015 Journal of Water Process Engineering 7, pp. 273- to optical measurements, 2015 Nanoscale Research Letters 279 10 (1), 310 2655. Ha, J.W. Enhanced photothermal signal in thiol-capped sin- 2665. 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2645. Saylor, C., Novak, E., Debu, D., Herzog, J.B. Investigation Processes at Individual Ag Nanoparticles by 3D Super lo- of maximum optical enhancement in single gold nanowires calization Microscopy, NANO LETTERS, 15 (10):6454-6463; and triple nanowire arrays, 2015 Journal of Nanophotonics 10.1021/acs.nanolett.5b02921 OCT 2015 9 (1), 093053 2635. Guidelli, E.J., Ramos, A.P., Ba‚a, O. Silver nanoparticle €lms 2644. Kluczyk, K., Jacak, W. Damping-induced size e‚ect in sur- for metal enhanced luminescence: Toward development face plasmon resonance in metallic nano-particles: Com- of plasmonic radiation detectors for medical applications, parison of RPA microscopic model with numerical €nite ele- 2016 Sensors and Actuators, B: Chemical 224, pp. 248-255 ment simulation (COMSOL) and Mie approach, 2016 Journal 2634. Vartia, O.S., Yla-Oijala, P., Markkanen, J., Puupponen, S; of Quantitative Spectroscopy and Radiative Transfer 168, Seppala, A; Sihvola, A., Ala-Nissila, T. 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Fabrication of silver nanorods embedded han, O; Molina, SI Mapping the plasmonic response of gold in PDMS €lm and its application for strain sensing, 2015 nanoparticles embedded in TiO2 thin €lms, NANOTECH- Journal of Physics D: Applied Physics 48 (44), 445303 NOLOGY, 26 (40):10.1088/0957-4484/26/40/405702 OCT 9 2631. Vita, F., Boccia, A., Marrani, A.G., (...), Arduini, A., Secchi, A. 2015 Calix[4]arene-Functionalised Silver Nanoparticles as Hosts for Pyridinium-Loaded Gold Nanoparticles as Guests, 2015 2641. Islam, NU; Ahsan, F; Khan, I; Shah, MR; Shahid, M; Khan, MA Chemistry - A European Journal 21 (43), pp. 15428-15438 Green Synthesis and Biological Activities of Gold Nanopar- ticles Functionalized with Citrus reticulata, Citrus aurantium, 2630. Kumar, A., Vyas, G., Bhatt, M., Bhatt, S., Paul, P. Silver nano- Citrus sinensis and Citrus grandis, JOURNAL OF THE CHEMI- particle based highly selective and sensitive solvatochro- CAL SOCIETY OF PAKISTAN, 37 (4):721-731; AUG 2015 matic sensor for colorimetric detection of 1,4-dioxane in aqueous media, 2015 Chemical Communications 51 (88), pp. 2640. Bae, G.-T., Aikens, C.M. Time-Dependent Density Functio- 15936-15939 nal Theory Studies of Optical Properties of Au Nanopar- ticles: Octahedra, Truncated Octahedra, and Icosahedra, 2629. Tsai, M.-S., Liu, T.-K., Tsen, C.-Y., Ting, C.-C. Polarization sen- 2015 Journal of Physical Chemistry C 119 (40), pp. 23127- sitivity of light di‚raction for periodic array of anisotropic 23137 gold nanoparticles, 2015 Applied Physics Letters 106 (24), 241107 2639. Battie, Y., Resano-Garcia, A., En Naciri, A., Akil, S., Chaoui, 2628. Munoz-Rosas, AL; Rodriguez-Gomez, A; Arenas-Alatorre, JA; N. Determination of morphological characteristics of meta- Alonso-Huitron, JC Photoluminescence enhancement from llic nanoparticles based on modi€ed Maxwell-Garnett €tting silicon quantum dots located in the vicinity of a monolayer of optical responses, 2015 Applied Physics Letters 107 (14), of gold nanoparticles, RSC ADVANCES, 5 (113):92923-92931; 143104 2015 2638. Bansal, A; Sekhon, JS; Verma, SS Dimensional and com- 2627. Attanayake, T., Premaratne, M., Agrawal, G.P. Characterizing positional dependent analysis of plasmonic bimetallic na- the Optical Response of Symmetric Hemispherical Nano- norods, JOURNAL OF MODERN OPTICS, 62 (19):1665-1673; dimers, 2015 Plasmonics 10 (6), pp. 1453-1466 10.1080/09500340.2015.1063725 2015 2626. Bakhti, S., Destouches, N., Tishchenko, A.V. Singular Repre- 2637. Lin, LL; Wang, Q Microplasma: A New Generation of Tech- sentation of Plasmon Resonance Modes to Optimize the nology for Functional Nanomaterial Synthesis, PLASMA Near- and Far-Field Properties of Metal Nanoparticles, 2015 CHEMISTRY AND PLASMA PROCESSING, 35 (6):925-962; Plasmonics 10 (6), pp. 1391-1399 10.1007/s11090-015-9640-y NOV 2015 2625. Pathak, N.K., Pandey, G.K., Ji, A., Sharma, R.P. Study of Light 2636. Patel, AN; Martinez-Marrades, A; Brasiliense, V; Koshelev, D; Extinction and Surface Plasmon Resonances of Metal Na- Besbes, M; Kuszelewicz, R; Combellas, C; Tessier, G; Kanou€, nocluster: a Comparison Between Coated and Non-coated F Deciphering the Elementary Steps of Transport-Reaction Nanogeometry, 2015 Plasmonics 10 (6), pp. 1597-1606 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 69

2624. Raza, So., Kadkhodazadeh, S., Christensen, T., (...), Morten- 2613. Purbia, R., Paria, S. Yolk/shell nanoparticles: Classi€cations, sen, N.A., Stenger, N. Multipole plasmons and their disap- synthesis, properties, and applications, 2015 Nanoscale 7 pearance in few-nanometre silver nanoparticles, 2015 Na- (47), pp. 19789-19873 ture Communications 6, 8788 2612. Bakhti, S; Destouches, N; Tishchenko, AV Singular Repre- 2623. Signoretto, M., Suarez, I., Chirvony, V.S., (...), Rodriguez- sentation of Plasmon Resonance Modes to Optimize the Canto, P.J., Martinez-Pastor, J. Polymer waveguide couplers Near- and Far-Field Properties of Metal Nanoparticles, PLAS- based on metal nanoparticle-polymer nanocomposites, MONICS, 10 (6):1391-1399; 10.1007/s11468-015-9937-y DEC 2015 Nanotechnology 26 (47), 475201 2015

2622. Akhlaghi, M. Optimization of the plasmonic nano-rods- 2611. Cogollo-Olivo, BH; Seriani, N; Montoya, JA Unbiased struc- based absorption coecient using TLBO algorithm, 2015 tural search of small copper clusters within DFT, CHEMICAL Optik 126 (24), pp. 5033-5037 PHYSICS, 461 20-24; 10.1016/j.chemphys.2015.08.023 NOV 5 2015 2621.D Agostino,´ S Size and shape dependence of localized sur- face plasmon resonances, (Book Chapter) 2013 Handbook 2610. Pathak, NK; Pandey, GK; Ji, A; Sharma, RP Study of of Molecular Plasmonics pp. 137-174 Light Extinction and Surface Plasmon Resonances of Me- tal Nanocluster: a Comparison Between Coated and Non- 2620. Constantin, D. Why the aspect ratio? Shape equivalence for coated Nanogeometry, PLASMONICS, 10 (6):1597-1606; the extinction spectra of gold nanoparticles, 2015 European 10.1007/s11468-015-9978-2 DEC 2015 Physical Journal E 38 (11), 116, pp. 1-6 2609. Obradovic, M; Di Vece, M; Asselberghs, I; Grandjean, D; 2619. Zarpelon, F; Galiotto, D; Aguzzoli, C; Carli, LN; Figueroa, CA; Clays, K; Lievens, P Photoluminescence as a Probe of Baumvol, IJR; Machado, G; Crespo, JD; Giovanela, M Removal the Electrical Charge Dependence of Gold Nanoparticles, of coliform bacteria from industrial wastewaters using pol- JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 15 yelectrolytes/silver nanoparticles self-assembled thin €lms (12):9766-9771; 10.1166/jnn.2015.10794 DEC 2015 2016 Journal of Environmental Chemical Engineering 4 (1), 2608. Sharvani, S; Upadhayaya, K; Kumari, G; Narayana, C; Shi- pp. 137-146 vaprasad, SM Nano-morphology induced additional sur- 2618. De Antoni, L.O., Loguercio, L.F., Rodrigues, M.R.F., (...), Ferrei- face plasmon resonance enhancement of SERS sensiti- ra, J., Leite Santos, M.J. E‚ect of gold nanoparticles on the vity in Ag/GaN nanowall network, NANOTECHNOLOGY, 26 structural and optical stability of poly (3-hexylthiophene), (46):10.1088/0957-4484/26/46/465701 NOV 20 2015 2016 Polymer Degradation and Stability 123, pp. 62-68 2607. Nedyalkov, N.N., Nakajima, Y., Takami, A., (...), Karashanova, 2617. Liu, C., Lv, J., Wang, F., (...), Liu, Q., Chu, P.K. Analysis of D., Terakawa, M. Laser induced morphological and optical Localized Surface Plasmon Resonance in Ag/ITO/CdS/SiO2 properties changes in Au doped aluminum oxide and silicon Multilayered Nanostructured Composite, 2015 Nano10 (8), oxide thin €lms, 2016 Optics and Laser Technology 79, pp. 1550117 179-187

2616. Sinha, SN; Paul, D; Halder, N; Sengupta, D; Patra, SK Green 2606. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic control synthesis of silver nanoparticles using fresh water green of multicolor electrochromic device with localized surface alga Pithophora oedogonia (Mont.) Wittrock and evalua- plasmon resonance of silver nanoparticles by voltage-step tion of their antibacterial activity, APPLIED NANOSCIENCE, method, 2016 Solar Energy Materials and Solar Cells 145, 5 (6):703-709; 10.1007/s13204-014-0366-6 AUG 2015 pp. 16-25 2605. Gokhale, S. E‚ects of engineered nanomaterials released 2615. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic control into the atmosphere, 2016 Journal of Hazardous, Toxic, and of multicolor electrochromic device with localized surface Radioactive Waste 20 (1), B4015005 plasmon resonance of silver nanoparticles by voltage-step method, 2016 Solar Energy Materials and Solar Cells 145, 2604. Kong, D., Jiang, L., Drucker, J. Interpreting plasmonic respon- pp. 16-25 se of epitaxial Ag/Si(100) island ensembles, 2015 Journal of Applied Physics 118 (21), 213103 2614. Heisler, F., Babich, E., Scherbak, S., (...), Samusev, A., Lipovs- kii, A.A. Resonant Optical Properties of Single Out-Di‚used 2603. Khan, M.K., MacLachlan, M.J. Polymer and Carbon Spheres Silver Nanoislands, 2015 Journal of Physical Chemistry C 119 with an Embedded Shell of Plasmonic Gold Nanoparticles, (47), pp. 26692-26697 2015 ACS Macro Letters 4 (12), pp. 1351-1355 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 70

2602. Aoki, P.H.B., Constantino, C.J.L., Oliveira, O.N., Aroca, R.F. 2592. Ahmed, H., Doran, J., McCormack, S.J. Increased short-circuit Plasmonics in Analytical Spectroscopy, 2015 ACS Sympo- current density and external quantum eciency of silicon sium Series 1215, pp. 269-301 and dye sensitised solar cells through plasmonic lumines- cent down-shi†ing layers, 2016 Solar Energy 126, pp. 146- 2601. Lai, C.-F., Wang, Y.-C., Wu, C.-L., Zeng, J.-Y., Lin, C.-F. Prepa- 155 ration of a colloidal photonic crystal containing CuO nano- particles with tunable structural colors, 2015 RSC Advances 2591. Bastus, N.G., Piella, J., Puntes, V. Quantifying the Sensitivity 5 (127), pp. 105200-105205 of Multipolar (Dipolar, Quadrupolar, and Octapolar) Surface Plasmon Resonances in Silver Nanoparticles: The E‚ect of 2600. Bhargava, A., Jain, N., Barathi, L.M., (...), Yun, Y.-S., Panwar, J. Size, Composition, and Surface Coating, 2016 Langmuir 32 Synthesis, characterization and mechanistic insights of my- (1), pp. 290-300 cogenic iron oxide nanoparticles, (Book Chapter) 2014 Na- notechnology for Sustainable Development, First Edition 2590. Roychoudhury, P., Ghosh, S., Pal, R. Cyanobacteria mediated green synthesis of gold-silver nanoalloy, 2016 Journal of 2599. Lee, JE; Chung, K; Lee, J; Shin, K; Kim, DH In Situ Studies of Plant Biochemistry and Biotechnology 25 (1), pp. 73-78 Surface-Plasmon-Resonance-Coupling Sensor Mediated by Stimuli-Sensitive Polymer Linker, ADVANCED FUNCTIONAL 2589. Lee, D., Lee, J., Song, K.-H., Rhee, H., Jang, D.-J. Forma- MATERIALS, 25 (43):6716-6724; 10.1002/adfm.201503340 tion and decay of charge carriers in aggregate nano€bers NOV 18 2015 consisting of poly(3-hexylthiophene)-coated gold nanopar- ticles, 2016 Physical Chemistry Chemical Physics 18 (3), pp. 2598. Sarkar, M; Bryche, JF; Moreau, J; Besbes, M; Barbillon, G; 2087-2096 Bartenlian, B; Canva, M Generalized analytical model based on harmonic coupling for hybrid plasmonic modes: compa- 2588. Lee, J.-E., Chung, K., Lee, J., Shin, K., Kim, D.H. In Situ Stu- rison with numerical and experimental results, OPTICS EX- dies of Surface-Plasmon-Resonance-Coupling Sensor Me- PRESS, 23 (21):27376-27390; 10.1364/OE.23.027376 OCT 19 diated by Stimuli-Sensitive Polymer Linker, 2015 Advanced 2015 Functional Materials 25 (43), pp. 6716-6724

2597. Gokhale, S. E‚ects of engineered nanomaterials released 2587. Caro, C., Sayagues, M.J., Franco, V., (...), Zaderenko, P., into the atmosphere, 2016 Journal of Hazardous, Toxic, and G·mez, F. A hybrid silver-magnetite detector based on sur- Radioactive Waste 20 (1), B4015005 face enhanced Raman scattering for di‚erentiating organic compounds, 2016 Sensors and Actuators, B: Chemical 228, 2596. Hulkoti, N.I., Taranath, T.C. E‚ect of various physico- pp. 124-133 chemical factors on synthesis of biogenic silver nanopar- 2586. Tuersun, P. Simulated localized surface plasmon spectra of ticles using leaf extract of cananga odorata (Lam.) Hook.F. single gold and silver nanobars, 2016 Optik 127 (6), pp. & Thomson. and its anti-bacterial e‚ect, 2015 Source of the 3466-3470 DocumentInternational Journal of Pharmaceutical Sciences Review and Research 35 (2), pp. 213-218 2585. Jahn, M; Patze, S; Hidi, IJ; Knipper, R; Radu, AI; Muhlig, A; Yuksel, S; Peksa, V; Weber, K; Mayerhofer, T; Cialla-May, 2595. Caro, C., Gamez,´ F., Sayagues, M.J., Polvillo, R., Royo, J.L. D; Popp, J Plasmonic nanostructures for surface enhanced AgACTiO2 nanoparticles with microbiocide properties under spectroscopic methods, 2016 Analyst 141 (3), pp. 756-793 visible light, 2015 Materials Research Express 2 (5), 055002 2584. He, Z., Yuan, X., Wang, Q., (...), Zhang, H., Yang, H. Multicolo- 2594. Cacciato, G; Runo, F; Zimbone, M; Reitano, R; Privitera, V; red Electrochromic Device from the Reversible Aggregation Grimaldi, MG Au thin €lms nano-structuration on polycrys- and Decentralization of Silver Nanoparticles, 2016 Advan- talline anatase and rutile TiO2 substrates towards photo- ced Optical Materials 4 (1), pp. 106-111 catalytic applications, MATERIALS SCIENCE IN SEMICONDUC- TOR PROCESSING, 42 40-44; SI 10.1016/j.mssp.2015.07.074 2583. Chirico, G., Pallavicini, P., Borzenkov, M. Physical properties 1 FEB 2016 of gold nanostars, 2015 Gold Nanostars: Synthesis, Proper- ties and Biomedical Application pp. 25-42 2593. Leong, KY; Ong, HC; Amer, NH; Norazrina, MJ; Risby, MS; Ahmad, KZK An overview on current application of na- 2582. Teich, E.G., Van Anders, G., Klotsa, D., Dshemuchadse, J., noƒuids in solar thermal collector and its challenges, RE- Glotzer, S.C. Clusters of polyhedra in spherical con€nement, NEWABLE & SUSTAINABLE ENERGY REVIEWS, 53 1092-1105; 2016 Proceedings of the National Academy of Sciences of 10.1016/j.rser.2015.09.060 JAN 2016 the United States of America 113 (6), pp. E669-E678 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 71

2581. Wang, Y., Ge, C.-W., Zou, Y.-F., (...), Yu, Y.-Q., Luo, L.-B. 2571. Bansal, A; Verma, SS Dimensional Inƒuence on Plas- Plasmonic Indium Nanoparticle-Induced High-Performance monic Response of Trimetallic Nanorods, ADVANCED Photoswitch for Blue Light Detection, 2016 Advanced Optical MATERIALS AND RADIATION PHYSICS (AMRP-2015), 1675 Materials 4 (2), pp. 291-296 10.1063/1.4929299 2015 2580. Alsaif, M.M.Y.A., Field, M.R., Daeneke, T., T; Chrimes, AF; 2570. Biswas, S; Kole, AK; Tiwary, CS; Kumbhakar, P Obser- Zhang, W; Carey, BJ; Berean, KJ; Walia, S; van Embden, vation of Size-Dependent Electron-Phonon Scattering and J; Zhang, BY; Latham, K; Kalantar-Zadeh, K., Ou, J.Z. Ex- Temperature-Dependent Photoluminescence Quenching in foliation solvent dependent plasmon resonances in two- Triangular-Shaped Silver Nanoparticles, PLASMONICS, 11 dimensional sub-stoichiometric molybdenum oxide nano- (2):593-600; 10.1007/s11468-015-0072-6 APR 2016 ƒakes, A2016 ACS Applied Materials and Interfaces 8 (5), 2569. Niklasson, GA; Lansaker, PC; Li, SY; Granqvist, CG Plas- pp. 3482-3493 monic thin €lms for application in improved chromogenic 2579. Chen, F., Yao, D. Realizing of plasmon Fano resonance with a windows, INERA CONFERENCE 2015: LIGHT IN NANOSCIEN- metal nanowall moving along MIM waveguide, 2016 Optics CE AND NANOTECHNOLOGY (LNN 2015), 682 10.1088/1742- Communications 369, pp. 72-78 6596/682/1/012003 2016 Book Series: Journal of Physics Conference Series 2578. Pescaglini, A., Secco, E., Martin, A., Cammi, D; Ronning, C; Cantarero, A; Garro, N., Iacopino, D. Non-resonant Raman 2568. Phadke, P; Chawla, S Sui Generis Cerulean Fluo- spectroscopy of individual ZnO nanowires via Au nanorod rescence from YAG:Ce by Selective Plasmonic Mode surface plasmons, 2016 Journal of Materials Chemistry C 4 Coupling with Silver Nanorods, PLASMONICS, 11 (2):395-402; (8), pp. 1651-1657 10.1007/s11468-015-0061-9 APR 2016 2577. Madhavi, V; Kondaiah, P; Shaik, H; Raoa, GM Phase de- 2567. Zhao, ZY; Rossi, VAV; Baltrus, JP; Ohodnicki, PR; Carpen- pendent photocatalytic activity of Ag loaded TiO2 €lms ter, MA Ag Nanoparticles Supported on Yttria-Stabilized Zir- under sun light, APPLIED SURFACE SCIENCE, 364 732-739; conia: A Synergistic System within Redox Environments, 10.1016/j.apsusc.2015.12.133 FEB 28 2016 JOURNAL OF PHYSICAL CHEMISTRY C, 120 (9):5020-5032; 10.1021/acs.jpcc.6b00189 MAR 10 2016 2576. Recordati, C; De Maglie, M; Bianchessi, S; Argentiere, S; Ce- lla, C; Mattiello, S; Cubadda, F; Aureli, F; DAmato,´ M; Raggi, 2566. Abdullah, OG; Tahir, DA; Saber, DR Optical Properties of the A; Lenardi, C; Milani, P; Scanziani, E Tissue distribution and Synthesized Cr2S3 Nanoparticles Embedded in Polyvinyl Al- acute toxicity of silver a†er single intravenous administra- cohol, ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY, tion in mice: nano-speci€c and size-dependent e‚ects, PAR- 3 (1):45-49; MAY 2015 TICLE AND FIBRE TOXICOLOGY, 13 (1), 12 2016 2565. Sanchez-Dena, O; Mota-Santiago, P; Tamayo-Rivera, L; 2575. Daneshfar, N; Moradi, M An analytical solution for Garcia-Ramirez, EV; Crespo-Sosa, A; Oliver, A; Reyes- light scattering by metallic cylindrical nanoparticles with Esqueda, JA Size-and shape-dependent nonlinear optical core-shell structure, MODERN PHYSICS LETTERS B, 30 response of Au nanoparticles embedded in sapphire, OPTI- (5):10.1142/S021798491650041X FEB 20 2016 CAL MATERIALS EXPRESS, 4 (1):92-100; 10.1364/OME.4.0092 JAN 1 2014 2574. Chen, F., Yao, D. Realizing of plasmon Fano resonance with a metal nanowall moving along MIM waveguide, 2016 Optics 2564. Mu, HW; Lv, JW; Liu, ZT; Zheng, SJ; Yang, L; Sun, T; Liu, Q; Communications 369, pp. 72-78 Liu, C Optical properties of local surface plasmon resonan- ce in Ag/ITO sliced nanosphere by the discrete dipole ap- 2573. Edison, TNJI; Atchudan, R; Lee, YR Optical Sensor for Dis- proximation, 2016 Applied Physics A: Materials Science and solved Ammonia Through the Green Synthesis of Silver Na- Processing 122 (4), 419 noparticles by Fruit Extract of Terminalia chebula, JOURNAL OF CLUSTER SCIENCE, 27 (2):683-690; 10.1007/s10876-016- 2563. Zhang, ML; Xiang, HP; Zhang, X; Lu, G Quantum elec- 0972-4 MAR 2016 trodynamics and plasmonic resonance of metallic nanos- tructures, JOURNAL OF PHYSICS-CONDENSED MATTER, 28 2572. Garg, V; Sengar, BS; Awasthi, V; Aaryashree; Sharma, (15):10.1088/0953-8984/28/15/155302 APR 20 2016 P; Mukherjee, C; Kumar, S; Mukherjee, S Localized sur- face plasmon resonance on Au nanoparticles: tuning 2562. Eisa, W.H., Al-Ashkar, E., El-Mossalamy, S.M., Ali, S.S.M. PVP and exploitation for performance enhancement in ul- induce self-seeding process for growth of Au at Ag core at trathin photovoltaics, RSC ADVANCES, 6 (31):26216-26226; shell nanocomposites, 2016 Chemical Physics Letters 651, 10.1039/c5ra25575a 2016 28-33 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 72

2561. Erwin, WR; Zarick, HF; Talbert, EM; Bardhan, R Light trap- 2549. Anquillare, EL; Miller, OD; Hsu, CW; DeLacy, BG; Joannopou- ping in mesoporous solar cells with plasmonic nanostruc- los, JD; Johnson, SG; Soljacic, M Ecient, designable, and tures, ENERGY & ENVIRONMENTAL SCIENCE, 9 (5):1577-1601; broad-bandwidth optical extinction via aspect-ratio-tailored 10.1039/c5ee03847b 2016 silver nanodisks, 2016 Optics Express 24 (10) 10806-10816 2560. Wang, L; Chen, R; Ren, ZF; Ge, CW; Liu, ZX; He, SJ; Yu, YQ; 2548. Xing, Z., Zong, X., Butburee, T., (...), Bai, Y., Wang, L. Nanohy- Wu, CY; Luo, LB Plasmonic silver nanosphere enhanced ZnSe brid materials of titania nanosheets and plasmonic gold na- nanoribbon/Si heterojunction optoelectronic devices, 2016 noparticles for e‚ective hydrogen evolution, 2016 Applied Nanotechnology 27 (21), 215202 Catalysis A: General 521, pp. 96-103 2559. Trejo-Valdez, M., Sobral, H., Martinez-Gutierrez, H., Torres- 2547. He, XJ; Zhang, QF; Lu, GJ; Ying, GB; Wu, FM; Jiang, JX Tuna- Torres, C. Study of the electrical and nanosecond third order ble ultrasensitive terahertz sensor based on complemen- nonlinear optical properties of ZnO €lms doped with Au and tary graphene metamaterials, 2016 RSC Advances 6 (57), Pt nanoparticles, 2016 Thin Solid Films 605, pp. 84-88 pp. 52212-52218 2558. Resano-Garcia, A., Battie, Y., Naciri, A.E., Chaoui, N. Interac- 2546. Gezgin, SY; Kilic, HS; Kepceoglu, A; Bayir, S; Nalbantoglu, IE; tion of a converging laser beam with a Ag colloidal solution Toprak, A, Plasmonic Tuning of Gold Doped Thin Films for during the ablation of a Ag target in water, 2016 Nanotech- Layers of Photovoltaic Devices, Edited by: Akkus B; Oktem nology 27 (21), 215705 Y; Yalcin LS; Mutlu RBC; Dogan GS, 9TH INTERNATIONAL PHY- 2557. Carbo-Argibay,´ E., Mourdikoudis, S., Pastoriza-Santos, I., SICS CONFERENCE OF THE BALKAN PHYSICAL UNION (BPU-9), Perez-Juste,´ J. Nanocolloids of Noble Metals (Book Chap- 1722 10.1063/1.4944228 2016 ter) 2016 Nanocolloids: A Meeting Point for Scientists and 2545. Pathak, NK; Sharma, RP Study of Broadband Tunable Proper- Technologists pp. 37-73 ties of Surface Plasmon Resonances of Noble Metal Nano- 2556. Lozanova, V., Todorov, R. Microstructure and optical pro- particles Using Mie Scattering Theory: Plasmonic Perovski- perties of thermally evaporated very thin silver €lms, 2015 te Interaction, PLASMONICS, 11 (3):713-719; 10.1007/s11468- Bulgarian Chemical Communications 47, Pages 55-59 015-0097-x JUN 2016 2555. Al-Azawi, M.A., Bidin, N., Abbas, K.N., Bououdina, M., Azzez, 2544. Xu, Z., Liu, Y., Ren, F., Yang, F., Ma, D. Development of fun- S.A. Broadband optical absorption enhancement of N719 ctional nanostructures and their applications in catalysis dye in ethanol by gold-silver alloy nanoparticles fabricated and solar cells, 2016 Coordination Chemistry Reviews 320- under laser ablation technique, 2016 Journal of Nanopho- 321, pp. 153-180 tonics 10 (2), 026009 2543. Tsuzuki, T. Properties of nanoparticulate materials, (Book 2554. De Farias, M.A., Do Carmo Goncalves, M. Synthesis and ap- Chapter) 2013, Nanotechnology Commercialisation, pp. 1- plications of polystyrene-block-poly(N-vinyl-2-pyrrolidone) 37 copolymers, 2016 Polimeros 26 (1) Pages 1-10 2542. Kim, J; Agrawal, A; Krieg, F; Bergerud, A; Milliron, DJ The In- 2553. Nikov, RG; Nedyalkov, NN; Atanasov, PA; Hirsch, D; Raus- terplay of Shape and Crystalline Anisotropies in Plasmonic chenbach, B; Grochowska, K; Sliwinski, G Characterization Semiconductor Nanocrystals, NANO LETTERS, 16 (6):3879- of Ag nanostructures fabricated by laser-induced dewet- 3884; 2016 ting of thin €lms, APPLIED SURFACE SCIENCE, 374 36-41; 10.1016/j.apsusc.2015.09.004 JUN 30 2016 2541. Khafaji, M., Vossoughi, M., Hormozi-Nezhad, M.R., (...), 2552. Yao, H., Shiratsu, T. Individual and collective modes of sur- Borrnert, F., Irajizad, A. A new bifunctional hybrid nanos- face magnetoplasmon in thiolate-protected silver nanopar- tructure as an active platform for photothermal therapy and ticles studied by MCD spectroscopy, 2016 Nanoscale 8 (21) MR imaging, 2016 Scienti€c Reports 6, 27847 11264-11274 2540. Poorani, G., Rao, A.P., Singaravelu, G., Manickam, E. Plas- 2551. Bottomley, A., Prezgot, D., Coyle, J.P., Ianoul, A. Dynamics monic phototherapy using gold nanospheres and gold na- of nanocubes embedding into polymer €lms investigated: norods irradiated with light-emitting diodes, 2016 Journal Via spatially resolved plasmon modes, 2016 Nanoscale 8 of Nanophotonics10 (2), 026027 (21) 11168-11176 2539. Jeeyoung Lee and Myeongkyu Lee Laser-Induced Conver- 2550. Azarian, A., Babaei, F. Localized surface plasmons in face sion of Au Powders to Highly Stable Nanoparticles with a to face dimer silver triangular prism nanoparticles, 2016 Narrow Size Distribution, J. Phys. Chem. C, 2016, 120 (24), Journal of Applied Physics 119 (20), 203103 pp 13256?13262 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 73

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2517. Gezgin, S.Y., Kilic, H.?., Kepceoglu, A., (...), Nalbantoglu, I.E., 2507. Bossard-Giannesini, L., Cruguel, H., Lacaze, E., Pluchery, O. Toprak, A. Plasmonic tuning of gold doped thin €lms for Plasmonic properties of gold nanoparticles on silicon subs- layers of photovoltaic devices, 2016 AIP Conference Pro- trates: Understanding Fano-like spectra observed in reƒec- ceedings 1722, 200013 tion, 2016 Applied Physics Letters 109 (11), 111901 2516. Shrivas, K., Nirmalkar, N., Ghosale, A., Thakur, S.S., Shan- 2506. Gondal, MA; Adeseda, AA; Rashid, SG; Hameed, A; Aslam, M; kar, R. 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Roopak, S; Pathak, NK; Sharma, R; Ji, A; Pathak, H; Shar- of Nanoscience 10, pp. 267-287 ma, RP Numerical Simulation of Extinction Spectra of Plas- 2486. Chen, C., Zhao, D., Hu, T., Sun, J., Yang, X. Highly ƒuorescent monically Coupled Nanospheres Using Discrete Dipole Ap- nitrogen and sulfur co-doped graphene quantum dots for proximation: Inƒuence of Compositional Asymmetry, PLAS- an inner €lter e‚ect-based cyanide sensor, 2017 Sensors MONICS, 11 (6):1603-1612; 10.1007/s11468-016-0216-3 DEC and Actuators, B: Chemical 241, pp. 779-788 2016 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 76

2475. Shi, XW; Lou, ZZ; Zhang, P; Fujitsuka, MR; Majima, T 3D- 2463. Chou Chau, Y.-F., Syu, J.-Y., Chao, C.-T.C., Chiang, H.-P., Lim, Array of Au-TiO2 Yolk-Shell as Plasmonic Photocatalyst C.M. Design of crossing metallic metasurface arrays based Boosting Multi-Scattering with Enhanced Hydrogen Evolu- on high sensitivity of gap enhancement and transmittan- tion, ACS Applied Materials & Interfaces, 8 (46):31738-31745; ce shi† for plasmonic sensing applications, 2017 Journal of 10.1021/acsami.6b12940 NOV 23 2016 Physics D: Applied Physics 50 (4), 045105

2474. Kumar, S; Sood, AK Ultrafast Response of Plasmonic Na- 2462. Piella, J., Bastus, N.G., Puntes, V. Modeling the Optical Res- nostructures, REVIEWS IN PLASMONICS 2015, 2015 131-167; ponses of Noble Metal Nanoparticles Subjected to Physi- Book Series: Reviews in Plasmonics cochemical Transformations in Physiological Environments: 2473. Park, K; Jung, K; Kwon, SJ; Jang, HS; Byun, D; Han, IK; Ko, H Aggregation, Dissolution and Oxidation, 2017 Zeitschri† fur Plasmonic Nanowire-Enhanced Upconversion Luminescence Physikalische Chemie 231 (1), pp. 33-50 for Anticounterfeit Devices, ADVANCED FUNCTIONAL MATE- 2461. Lakhotiya, H; Nazir, A; Madsen, SP; Christiansen, J; Eriksen, RIALS, 26 (43):7836-7846; 10.1002/adfm.201603428 NOV E; Vester-Petersen, J; Johannsen, SR; Jeppesen, BR; Balling, 15 2016 P; Larsen, AN; Julsgaard, B Plasmonically enhanced upcon- 2472. Saha, S.K., Roy, P., Mondal, M.K., (...), Chowdhury, P., Babu, version of 1500 nm light via trivalent Er in a TiO2 matrix , S.P.S. Development of chitosan based gold nanomaterial as 2016 Applied Physics Letters 109 (26), 263102 an ecient anti€larial agent: A mechanistic approach, 2017 2460. Yang, YY; Noviana, E; Nguyen, MP; Geiss, BJ; Dandy, DS; Carbohydrate Polymers 157, pp. 1666-1676 Henry, CS Paper-Based Microƒuidic Devices: Emerging The- 2471. Ahmed, H., McCormack, S.J., Doran, J. Plasmonic lumines- mes and Applications, 2017 Analytical Chemistry 89 (1), pp. cent down shi†ing layers for the enhancement of CdTe mini- 71-91 modules performance, 2017 Solar Energy 141, pp. 242-248 2459. Medhat, M; El-Batawy, YM; Abdelmageed, AK; Soliman, EA 2470. Genc, A., Patarroyo, J., Sancho-Parramon, J., (...), Puntes, V., Gear Nano Antenna for Plasmonic Photovoltaic, 2016 IEEE Arbiol, J. Hollow metal nanostructures for enhanced plas- MIDDLE EAST CONFERENCE ON ANTENNAS AND PROPAGA- monics: Synthesis, local plasmonic properties and applica- TION (MECAP), 2016 tions, 2017 Nanophotonics 6 (1), pp. 193-213 2458. Milazzo, RG; Mio, AM; DArrigo, G; Smecca, E; Alberti, A; Fi- 2469. Amutha, A., Amirthapandian, S., Sundaravel, B., (...), Sarava- sichella, G; Giannazzo, F; Spinella, C; Rimini, E Inƒuence of nan, K., Thangadurai, P. Low-temperature photoluminescen- hydroƒuoric acid treatment on electroless deposition of Au ce behaviour of Ag decorated ZnO Nanorods, 2016 Journal clusters, 2017 Beilstein Journal of Nanotechnology 8 (1), pp. of Applied Physics 120 (20), 205104 183-189

2468. Santos, JFL; Santos, MJL; Thesing, A; Tavares, F; Griep, J; Ro- 2457. Zhou, R., Huang, T.T., Lin, S.D. Synthesis of nanoparticles drigues, M.R.F. Localized surface plasmon ressonance ap- by pulsed laser ablation in air: A versatile means for ƒe- plied to biosensors and solar cells, 2016 Quimica Nova 39 xible synthesis and separation, 2016 Proceedings of SPIE (9), pp. 1098-1111 - The International Society for Optical Engineering 10018, 2467. Grygorchuk, N.I. Behaviour of a line of the surface plas- 100180C mon resonance in metal nanoparticles, 2016 Metallo€zika i 2456. Hong, R., Ji, J., Tao, C., Zhang, D. Tunable surface plasmon Noveishie Tekhnologii 38 (6), pp. 717-735 resonance frequency of Au-Ag bimetallic asymmetric struc- 2466. Santos, M; Gonzalez-Obeso, C; Orbanic, D; del Rio, EP; Arias, ture thin €lms in the UV and IR region, 2016 Proceedings FJ Advanced Systems for Controlled Drug Delivery from of SPIE - The International Society for Optical Engineering Chemically Modi€ed Elastin-like Recombinamers, CURRENT 10154, 1015418 ORGANIC CHEMISTRY, 21 (1):21-33; 2017 2455. Maiti, A; Maity, A; Satpati, B; Large, N; Chini, TK Ecient Ex- 2465. Shahbazyan, T.V. Landau damping of surface plasmons in citation of Higher Order Modes in the Plasmonic Response metal nanostructures, 2016 Physical Review B - Condensed of Individual Concave Gold Nanocubes, JOURNAL OF PHYSI- Matter and Materials Physics 94 (23), 235431 CAL CHEMISTRY C, 121 (1):731-740; 2017 2464. Sandoval, A; Zanella, R; Klimova, TE Titania nanotubes de- 2454. Yao, H; Shiratsu, T Multipolar Surface Magnetoplasmon Re- corated with anatase nanocrystals as support for active and sonances in Triangular Silver Nanoprisms studied by MCD stable gold catalysts for CO oxidation, CATALYSIS TODAY, Spectroscopy, JOURNAL OF PHYSICAL CHEMISTRY C, 121 282 140-150; 10.1016/j.cattod.2016.05.056 2 MAR 15 2017 (1):761-768; 10.1021/acs.jpcc.6b11216 JAN 12 2017 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 77

2453. Bhardwaj, S; Pathak, NK; Ji, A; Uma, R; Sharma, RP Tuna- 2442. Mikitchuk, AP; Kozadaev, KV Modeling Interaction Between ble Properties of Surface Plasmon Resonance of Metal Na- Silver Nanoparticles in a 2D Array on a Glass Substra- nospheroid: Graphene Plasmon Interaction, PLASMONICS, te, JOURNAL OF APPLIED SPECTROSCOPY, 83 (6):996-1000; 12 (1):193-201; 10.1007/s11468-016-0249-7 FEB 2017 2017

2452. Bushell, M., Bottomley, A., Ianoul, A. Utilization of hybrid 2441. Gezgin, S.Y., Kepceoglu, A., Kilic, H.S. An experimental in- plasmonic modes to investigate surface interactions bet- vestigation of localised surface plasmon resonance (LSPR) ween nanocubes and polymer substrates, 2017 Applied for Cu nanoparticles depending as a function of laser pul- Physics A: Materials Science and Processing 123 (2), 135 se number in Pulsed Laser Deposition, 2017 AIP Conference Proceedings 1815, 030020 2451. Xie, T., Jing, C., Long, Y.-T. Single plasmonic nanoparticles as ultrasensitive sensors, 2017 Analyst 142 (3), pp. 409-420 2440. Tsuzuki, T. Properties of nanoparticulate materials, (Book Chapter) 2016 Handbook of Clinical Nanomedicine: Nano- 2450. Chang, H., Gao, W., Sun, X., Tan, H., Sun, S. Preparation, particles, Imaging, Therapy and Clinical Applications 1, pp. characterization and antibiotic properties of silver-silicon 171-209 nanocomposites, 2017 New Journal of Chemistry 41 (3), pp. 1313-1320 2439. Mohan, S; Sivakumar, B; Kulangara, RV; Subramanian, B Visible Light Driven Photocatalytic Eciency of rGO- 2449. Chen, Yihuang; Yoon, Young Jun; Pang, Xinchang; et al. Preci- Ag-BiFeO3 Ternary Nanohybrids on the Decontamina- sely Size-Tunable Monodisperse Hairy Plasmonic Nanopar- tion of Dye-Polluted Water: An Amalgamation of 1D, ticles via Amphiphilic Star-Like Block Copolymers, SMALL 2D and 3D Systems, CHEMISTRYSELECT, 1 (21):6961-6971; 12, 6714-6723 (2016) 10.1002/slct.201601275 DEC 16 2016 2448. Fujiyoshi, Y., Nemoto, T., Kurata, H. Studying substrate ef- 2438. Nedyalkov, N; Nikov, R; Nikov, R; Nikolov, A; Atanasov, P; fects on localized surface plasmons in an individual silver Nakajima, Y; Terakawa, M; Sawczak, M; Grochowska, K; Sli- nanoparticle using electron energy-loss spectroscopy, 2017 winski, G Gold nanostructures for detection of pesticides, ni- Ultramicroscopy 175, pp. 116-120 trates and drugs using Surface Enhanced Raman Spectros- copy, Edited by: Dreischuh T; Gateva S; Daskalova A; Sera- 2447. Kadkhodazadeh, S., Christensen, T., Beleggia, M., Morten- fetinide A, 19TH INTERNATIONAL CONFERENCE AND SCHOOL sen, N.A., Wagner, J.B. The Substrate E‚ect in Electron ON QUANTUM ELECTRONICS: LASER PHYSICS AND APPLICA- Energy-Loss Spectroscopy of Localized Surface Plasmons TIONS, 10226 10.1117/12.2261674 2017 in Gold and Silver Nanoparticles, 2017 ACS Photonics 4(2), pp. 251-261 2437. Schmidt, MM; Wu, SL; Cui, ZX; Nguyen, NT; Faulkner, M; Saunders, BR How gold nanoparticles can be used to pro- 2446. Kumar, D., Wadhwa, H., Mahendia, S., Chand, F., Kumar, be the structural changes of a pH-responsive hydrogel, S. E‚ect of rose water on structural, optical and electrical PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 19 (7):5102-5112; properties of composites of reduced graphene oxide-poly 10.1039/c6cp07929f FEB 21 2017 (vinyl alcohol) (PVA) gra†ed with silver nanoparticles, 2017 Materials Research Express 4(2),025021 2436. Ghosh, S; Saha, M; Paul, S; De, SK Shape Controlled Plasmo- nic Sn Doped CdO Colloidal Nanocrystals: A Synthetic Route 2445. Nayak, D.R., Bhat, N., Venkatapathi, M., Umapathy, S. Im- to Maximize the Figure of Merit of Transparent Conducting pact of ultrathin dielectric spacers on SERS: energy transfer Oxide, SMALL, 13 (7):10.1002/smll.201602469 FEB 17 2017 between polarized charges and plasmons, 2017 Journal of Materials Chemistry C 5(8), pp. 2123-2129 2435. Kalita, NK; Ganguli, JN Hibiscus sabdari‚a L. leaf ex- tract mediated green synthesis of silver nanoparticles 2444. Karn-Orachai, K., Sakamoto, K., Laocharoensuk, R., (...), and its use in catalytic reduction of 4-nitrophenol, Dharakul, T., Miki, K. SERS-based immunoassay on 2D- SYNTHESIS AND REACTIVITY IN INORGANIC METAL- arrays of Au at Ag core-shell nanoparticles: inƒuence of the ORGANIC AND NANO-METAL CHEMISTRY, 47 (5):788-793; sizes of the SERS probe and sandwich immunocomplex on 10.1080/15533174.2016.1218506 2017 the sensitivity, 2017 RSC Advances 7(23), pp. 14099-14106 2434. Feng, WC; Kim, JY; Wang, XZ; Calcaterra, HA; Qu, ZB; 2443. Todorov, R., Lozanova, V., Knotek, P., Cernoskova, E., Vlcek, Meshi, L; Kotov, NA Assembly of mesoscale helices with M. Microstructure and ellipsometric modelling of the optical near- unity enantiomeric excess and light-matter inter- properties of very thin silver €lms for application in plas- actions for chiral semiconductors, SCIENCE ADVANCES, 3 monics, 2017, Thin Solid Films628, pp. 22-30 (3):10.1126/sciadv.1601159 MAR 2017 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 78

2433. Liu, XF; Guo, QB; Qiu, JR Emerging Low-Dimensional Mate- 2422. Cheng, JJ; Le Saux, G; Gao, J; Bu‚eteau, T; Battie, Y; Ba- rials for Nonlinear Optics and Ultrafast Photonics, Liu, Xiao- rois, P; Ponsinet, V; Delville, MH; Ersen, O; Pouget, E; Oda, R feng; Guo, Qiangbing; Qiu, Jianrong, ADVANCED MATERIALS, GoldHelix: Gold Nanoparticles Forming 3D Helical Supers- 29 (14):SI 10.1002/adma.201605886 APR 11 2017 tructures with Controlled Morphology and Strong Chiroptical Property, 2017 ACS Nano 11(4), pp. 3806-3818 2432. Rastogi, L., Dash, K., Ballal, A Selective colorimetric/visual detection of Al3+ in ground water using ascorbic acid cap- 2421. Gromov, D.G., Melnikov, I.V., Savitskii, A.I., (...), Redichev, E.N., ped gold nanoparticles, 2017 Sensors and Actuators, B: Che- Astapenko, V.A. Optical spectroscopy of arrays of Ag-Au na- mical 248, pp. 124-132 noparticles obtained by vacuum-thermal evaporation, 2017 Technical Physics Letters 43(3), pp. 235-237 2431. Liang, C.-J., Huang, K.-Y., Hung, L.-T., Su, C.-Y. Rapidly fabri- cation of plasmonic structural color thin €lms through AAO 2420. Voicu, R.C., Sandu, T. Analytical results regarding electrosta- process in an alkaline solution, 2017 Surface and Coatings tic resonances of surface phonon/plasmon polaritons: Se- Technology 319, pp. 170-181 paration of variables with a twist, 2017 Proceedings of the Royal Society A: Mathematical, Physical and Engineering 2430. Magnfalt, D., Melander, E., Boyd, R.D., Kapaklis, V., Saraki- Sciences 473(2199),20160796 nos, K. Synthesis of tunable plasmonic metal-ceramic na- 2419. Ju-Nam, Y., Lead, J. Properties, Sources, Pathways, and Fate nocomposite thin €lms by temporally modulated sputtered of Nanoparticles in the Environment, (Book Chapter) 2016 ƒuxes, 2017 Journal of Applied Physics 121(17),171918 Engineered Nanoparticles and the Environment: Biophysi- 2429. Shokri, E., Hosseini, M., Davari, M.D., (...), Peppelenbosch, cochemical Processes and Toxicity pp. 95-117 M.P., Rezaee, F. Disul€de-induced self-assembled targets: A 2418. Santos, M., Gonzalez-Obeso, C., Orbanic, D., Del Rio, E.P., novel strategy for the label free colorimetric detection of Arias, F.J. Advanced systems for controlled drug delivery DNAs/RNAs via unmodi€ed gold nanoparticles, 2017 Scien- from chemically modi€ed elastin-like recombinamers, 2017 ti€c Reports 7,45837 Current Organic Chemistry 21(1), pp. 21-33 2428. Nadal, E., Barros, N., Glenat, H., (...), Schmool, D.S., Kachka- 2417. Nedyalkov, N; Nikov, R; Dikovska, A; Atanasova, G; Nakaji- chi, H. Plasmon-enhanced di‚raction in nanoparticle gra- ma, Y; Terakawa, M Gold nanostructures deposition by laser tings fabricated by in situ photo-reduction of gold chloride ablation in air using nano- and femtosecond laser pulses, doped polymer thin €lms by laser interference patterning, APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 123 2017 Journal of Materials Chemistry C 5(14), pp. 3553-3560 (5):10.1007/s00339-017-0878-5 MAY 2017 2427. Pathak, NK; Chander, N; Komarala, VK; Sharma, RP Plasmo- 2416. Biswas, P; Cho, SR; Kim, JW; Baek, SD; Myoung, JM Improved nic Perovskite Solar Cells Utilizing Au at SiO2 Core-Shell Na- UV response of ZnO nanotubes by resonant coupling of an- noparticles, PLASMONICS, 12 (2):237-244; 10.1007/s11468- chored plasmonic silver nanoparticles, NANOTECHNOLOGY, 016-0255-9 APR 2017 28 (22):10.1088/1361-6528/aa6ce0 JUN 2 2017 2426. Bodelon, G; Costas, C; Perez-Juste, J; Pastoriza-Santos, I; Liz- 2415. Sharma, V; Chotia, C; Tarachand; Ganesan, V; Okram, GS Marzan, LM Gold nanoparticles for regulation of cell fun- Inƒuence of particle size and dielectric environment on the ction and behavior, NANO TODAY, 13 40-60; 2017 dispersion behaviour and surface plasmon in nickel na- noparticles, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 21 2425. Castro-Longoria, E Fungal Biosynthesis of Nanoparticles, 14096-14106; 10.1039/c7cp01769c JUN 7 2017 a Cleaner Alternative, Edited by: Purchase D, FUNGAL AP- PLICATIONS IN SUSTAINABLE ENVIRONMENTAL BIOTECHNO- 2414. Sementa, L; Barcaro, G; Baseggio, O; De Vetta, M; Dass, LOGY, 323-351; 2016 A; Apra, E; Stener, M; Fortunelli, A Ligand-Enhanced Op- tical Response of Gold Nanomolecules and Its Fragment 2424. Moustafa, S.Y., Sahar, M.R., Ghoshal, S.K. Spectroscopic at- Projection Analysis: The Case of Au-30(SR)(18), JOUR- tributes of Er3+ ions in antimony phosphate glass incorpo- NAL OF PHYSICAL CHEMISTRY C, 121 (20):10832-10842; SI rated with Ag nanoparticles: Judd-Ofelt analysis, 2017 Jour- 10.1021/acs.jpcc.6b12029 MAY 25 2017 nal of Alloys and Compounds 712, pp. 781-794 2413. Gholami-Shabani, M; Shams-Ghahfarokhi, M; Gholami- 2423. Patil, S., Chaudhari, G., Paradeshi, J., Mahajan, R., Chaud- Shabani, Z; Razzaghi-Abyaneh, M Microbial Enzymes: Cu- hari, B.L. Instant green synthesis of silver-based herbo- rrent Features and Potential Applications in Nanobiotech- metallic colloidal nanosuspension in Terminalia bellirica nology, ADVANCES AND APPLICATIONS THROUGH FUNGAL fruit aqueous extract for catalytic and antibacterial appli- NANOBIOTECHNOLOGY, 91-127; 10.1007/978-3-319-42990- cations, 2017, 3 Biotech 7(1),36 8-5 2016 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 79

2412. Morino, R; Tajima, H; Sonoda, H; Kobayashi, H; Kanamo- 2403. Bhardwaj, S., Uma, R., Sharma, R.P. A Study of Metal at to, R; Odashima, H; Tachikawa, M Mode-selective thermal Graphene Core-Shell Spherical Nano-Geometry to Enhance radiation from a microsphere as a probe of optical proper- the SPR Tunability: Inƒuence of Graphene Monolayer Shell ties of high-temperature materials, PHYSICAL REVIEW A, 95 Thickness, 2017 Plasmonics 12(4), pp. 961-969 (6):10.1103/PhysRevA.95.063814 JUN 14 2017 2402. Sharma, R., Roopak, S., Pathak, N.K., ji, A., Sharma, R.P. 2411. 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Cheng, YF; Cao, Q; Zhang, J; Wu, T; Che, RC Ecient photo- racterization of silver nanospheroids: Theoretical and expe- degradation of dye pollutants using a novel plasmonic AgCl rimental approaches, (2017) Photonics Letters of Poland, 9 microrods array and photo–optimized surface-enhanced (2) pp. 63-65. Raman scattering, APPLIED CATALYSIS B-ENVIRONMENTAL, 2395. Byram, C., Moram, S.S.B., Shaik, A.K., Soma, V.R. Versati- 217 37-47; 10.1016/j.apcatb.2017.05.021 NOV 15 2017 le gold based SERS substrates fabricated by ultrafast la- 2406. Sanchez-Esquivel, H; Raygoza-Sanchez, KY; Rangel-Rojo, R; ser ablation for sensing picric acid and ammonium nitrate, Gemo, E; Michieli, N; Kalinic, B; Reyes-Esqueda, JA; Cesca, (2017) Chemical Physics Letters, 685 pp. 103-107. T; Mattei, G Spectral dependence of nonlinear absorption 2394. Qin, H; Shamso, AE; Centeno, A; Theodorou, LG; Mihai, AP; in ordered silver metallic nanoprism arrays, SCIENTIFIC RE- Ryan, MP; Xie, F, Enhancement of the upconversion photolu- PORTS, 7 10.1038/s41598-017-04814-2 JUL 13 2017 minescence of hexagonal phase NaYF4:Yb3+,Er3+ nanopar- 2405. Mathew, S., Samuel, B., Mujeeb, A., (...), Nampoori, V.P.N., ticles by mesoporous gold €lmst, PHYSICAL CHEMISTRY CHE- Girijavallabhan, C.P. E‚ect of Au coating on optical proper- MICAL PHYSICS, 19 (29):19159-19167; 10.1039/c7cp01959a ties of CdS nanoparticles and their optical limiting studies, AUG 7 2017 2017 Optical Materials 72, pp. 673-679 2393. Qin, H., Shamso, A.E., Centeno, A., (...), Ryan, M.P., Xie, F. En- 2404. Arya, M., Mitra, A., Nath, R. 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2392. Nedyalkov, N., Dikovska, A., Nikov, R., Atanasov, P., Sliwinski, 2381. Zhuge, FW; Zheng, Z; Luo, P; Lv, L; Huang, Y; Li, HQ; Zhai, G., Hirsch, D., Rauschenbach, B. Laser-induced nanoparticle TY Nanostructured Materials and Architectures for Advan- fabrication on paper, (2017) Applied Physics A: Materials ced Infrared Photodetection, ADVANCED MATERIALS TECH- Science and Processing, 123 (9), art. no. 570 NOLOGIES, 2 (8):10.1002/admt.201700005 AUG 2017 2391. Karthiga, D., Chandrasekaran, N., Mukherjee, A. Compara- 2380. De Zuani, S; Rommel, M; Vogelgesang, R; Weis, J; Gompf, B; tive studies on interaction of inorganic mercury with silver Dressel, M; Berrier, A Large-Area Two-Dimensional Plasmo- nanorods and nanotriangles, (2017) Journal of Molecular Li- nic Meta-Glasses and Meta-Crystals: a Comparative Study, quids, 242 pp. 987-992. PLASMONICS, 12 (5):1381-1390; 10.1007/s11468-016-0397-9 OCT 2017 2390. Battie, Y., Stchakovsky, M., En Naciri, A., Akil, S., Chaoui, N., Broch, L. 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1665. de Freitas, J. N., Nogueira, A. F. (2013). Incorporation of Inor- 1653. Rao, V.G., Banerjee, C., Mandal, S., Ghosh, S., Sarkar, N. ganic Nanoparticles into Bulk Heterojunction Organic Solar Zwitterionic micelles as a so† template for the extremely Cells. Nanoenergy: Nanotechnology Applied for Energy Pro- rapid synthesis of small hollow gold nanocontainers, 2013, duction, 1. RSC Advances 3 (35) , pp. 14963-14969

1664. Carvalho, B.G., Fagundes, J., Martin, A.A., Raniero, L., Favero, 1652. Gungor, K., Unal, E., Demir, H.V. Nanoplasmonic surfaces P.P. DNA nanosensor surface gra†ing and salt dependence, enabling strong surfacenormal electric €eld enhancement, (2013) Progress in Biomedical Optics and Imaging - Procee- 2013, Optics Express 21 (20) , pp. 23097-23106 dings of SPIE, 8594, art. no. 85940H 1651. Sturm, S., Rozman, K.Z., Markoli, B., Antonakakis, N.S., Sa- 1663. Mar´ın, J. G. (2013). FROM SILVER NANOSTRUCTURES TO rantopoulou, E., Kollia, Z., Cefalas, A.C., Kobe, S. Pulsed- GOLD NANOSTARS: SYNTHESIS AND CHARACTERIZATION OF laser fabrication of gas-€lled hollow Co-Pt nanospheres, TUNABLE PLASMONIC MATERIALS. 2013, Acta Materialia 61 (20) , pp. 7924-7930

1662. Bratkovsky, A. M. (2013). Plasmonic Devices for Fast Optoe- 1650. Coughlin, AJ; West, JL Gold nanoshells for imaging and lectronics and Enhanced Raman Sensors. Nanoscale Appli- photothermal ablation of cancer, Editor(s): Webster TJ, NA- cations for Information and Energy Systems, 1-40. NOMEDICINE: TECHNOLOGIES AND APPLICATIONS, (49):326- 355; 2012 Book Series: Woodhead Publishing Series in Bio- 1661. Qiu, C., Zhou, H., Cao, B., Sun, L., Yu, T. Raman spectroscopy materials of morphology-controlled deposition of Au on graphene, 2013, Carbon 59 , pp. 487-494 1649. Liu, A., Ren, Q., Zhao, M., Xu, T., Yuan, M., Zhao, T., Tang, W. Photovoltaic performance enhancement of CdS quantum 1660. Leong, E.S.P., Liu, Y.J., Chum, C.C., Teng, J.H. Optical Magnetic dot-sensitized TiO 2 photoanodes with plasmonic gold na- Resonances in Subwavelength Ag-MgF2-Ag Grating Structu- noparticles, 2014, Journal of Alloys and Compounds 589 , res, 2013, Plasmonics 8 (2) , pp. 1221-1226 pp. 218-225

1659. Liu, L., Jiang, W., Yang, X.-W., Chen, B.-H., Wu, S.-X., Li, F.-S. 1648. Campardelli, R., Della Porta, G., Gomez, L., Irusta, S., Rever- Facile fabrication of novel magnetic and ƒuorescent Fe3O4- chon, E., Santamaria, J., Au-PLA nanocomposites for pho- CdSe nanocomposites, (2013) Wuli Huaxue Xuebao/ Acta tothermally controlled drug delivery, 2014, Journal of Ma- Physico - Chimica Sinica, 29 (5) pp. 1088-1096. terials Chemistry B 2 (4) , pp. 409-417

1658. Zou, XX; Tao, ZM; Asefa, T Semiconductor and Plasmonic 1647. Szacilowski, K. (2012) Low-Dimensional Metals and Semi- Photocatalysis for Selective Organic Transformations, CU- conductors, in Infochemistry: Information Processing at the RRENT ORGANIC CHEMISTRY, 17 (12):1274-1287; JUN 2013 Nanoscale, John Wiley & Sons, Ltd, Chichester, UK. doi: 10.1002/9780470710883.ch4 1657. Savaloni, H., Babaei, R. Surface enhanced Raman spectros- copy and structural characterization of Ag/Cu chiral nano- 1646. Goel, S., Chen, F., Cai, W. Synthesis and biomedical applica- ƒower sculptured thin €lms, 2013, Applied Surface Science tions of copper sul€de nanoparticles: From sensors to thera- 280 , pp. 439-445 nostics, Small, Volume 10, Issue 4, 26 February 2014, Pages 631-645 1656. De Lasson, J.R., Mork, J., Kristensen, P.T. Three-dimensional integral equation approach to light scattering, extinction 1645. Yang, LK; Li, ZP; Wang, PJ; Zhang, LS; Fang, Y Optical Proper- cross sections, local density of states, and quasi-normal ties of Noncontinuous Gold Shell Engineered on Silica Me- modes, 2013, Journal of the Optical Society of America B: sosphere, PLASMONICS, 9 (1):121-127; 10.1007/s11468-013- Optical Physics 30 (7) , pp. 1996-2007 9604-0 FEB 2014 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 114

1644. Faucheaux, J.A.a, Fu, J.ad, Jain, P.K. Uni€ed theoretical fra- 1634. Yenchalwar, S.G., Reddydevarapalli, R., Deshmukh, A.B., mework for realizing diverse regimes of strong coupling Shelke, M.V. Plasmon-enhanced photocurrent generation between plasmons and electronic transitions, J Phys Chem from click-chemically modi€ed graphene, Chemistry - A Eu- C 118 (5), 2014, 2710-2717 ropean Journal 20, Issue 24, 10 June 2014, Pages 7402-7409

1643. Alee, K.S. , Rao, D.N. Time-dependent micro-Raman scatte- 1633. Kannan, P., Los, M., Los, J.M., Niedziolka-Jonsson, J. T7 bac- ring studies of polyvinyl alcohol and silver nitrate thin €lms, teriophage induced changes of gold nanoparticle morpho- Pramana - Journal of Physics, Volume 82, Issue 2, February logy: Biopolymer capped gold nanoparticles as versatile 2014, Pages 425-431 probes for sensitive plasmonic biosensors, Analyst 139, Is- sue 14, 21 July 2014, Pages 3563-3571 1642. Kawada, S., Saeki, D., Matsuyama, H. Development of ul- tra€ltration membrane by stacking of silver nanoparticles 1632. Tira, C., Tira, D., Simon, T., Astilean, S. Finite-Di‚erence stabilized with oppositely charged polyelectrolytes, Colloids Time-Domain (FDTD) design of gold nanoparticle chains and Surfaces A: Physicochemical and Engineering Aspects with speci€c surface plasmon resonance , Journal of Mole- 451, Issue 1, 1 June 2014, Pages 33-37 cular Structure Volume 1072, Issue 1, 25 August 2014, Pages 137-143 1641. Chopra, N. Roadmap to nanoscale heterostructures: From single-component nanowires axially heterostructured , en 1631. Forcherio, G.T., Blake, P., Dejarnette, D., Roper, D.K. Nanoring Nanowires: Properties, Synthesis and Applications 2011, Pa- structure, spacing, and local dielectric sensitivity for plas- ges 171-202 monic resonances in Fano resonant square lattices, Optics Express Volume 22, Issue 15, 41848, Pages 17791-17803 1640. Faucheaux, J.A., Stanton, A.L.D., Jain, P.K Plasmon resonan- ces of semiconductor nanocrystals: Physical principles and 1630. Singh, A., Chernenko, T., Amiji, M. Theranostic applications new opportunities, Journal of Physical Chemistry Letters, of plasmonic nanosystems, ACS Symposium Series Volume Volume 5, Issue 6, 20 March 2014, Pages 976-985 1113, 26 November 2012, Pages 383-413

1639. Ma, W. , Chen, F. Experimental and theoretical studies on the 1629. Wu, W., Maye, M.M. Discrete dipole approximation analy- interaction between isonicotinic acid molecules and silver sis of plasmonic core/alloy nanoparticles, ChemPhysChem nanoclusters, Spectroscopy Letters 47, Issue 10, 26 Novem- Volume 15, Issue 12, 25 August 2014, Pages 2582-2587 ber 2014, Pages 754-760 1628. Xu, J., Chen, Z., Zapien, J.A., Lee, C.-S., Zhang, W. Surfa- 1638. Rajesh, D; Sunandana, CS Structural and Optical Evaluation ce engineering of ZnO nanostructures for semiconductor- of Pristine and Partially Iodized Ag Thin Films, Editor(s): Giri sensitized solar cells, Advanced Materials Volume 26, Issue PK; Goswami DK; Perumal A, ADVANCED NANOMATERIALS 31, 20 August 2014, Pages 5337-5367 AND NANOTECHNOLOGY, 143 271-278;10.1007/978-3-642- 1627. Reza Dousti, M Plasmonic e‚ect of silver nanoparticles 34216-5-28 2013 on the upconversion emissions of Sm3+-doped sodium- borosilicate glass, Measurement: Journal of the Internatio- 1637. Gao, X., Esteves, R.J., Luong, T.T.H., Jaini, R., Arachchige, nal Measurement Confederation Volume 56, October 2014, I.U. Oxidation-induced self-assembly of Ag nanoshells into Pages 117-120 transparent and opaque Ag hydrogels and aerogels, Jour- nal of the American Chemical Society 136, June 2014, Pages 1626. Marocico, C.A., Zhang, X., Bradley, A.L. Spectral overlap de- 7993-8002 pendence of enhanced energy transfer near small Au nano- particles, International Conference on Transparent Optical 1636. Alisafaee, H., Fiddy, M.A. Dedicated nanoantenna elements Networks 2014, Article number 6876459 16th International for vertical nanorods in plasmonic photovoltaics, Procee- Conference on Transparent Optical Networks, ICTON 2014; dings of SPIE - The International Society for Optical Engi- Graz; Austria; 6 July 2014 through 10 July 2014; Category neering Volume 8981, 2014, Article number 89811H Physics, numberCFP14485-USB; Code 107209 Simulation, and Photonic Engineering of Photovoltaic Devi- ces III; San Francisco, CA; United States; 3 February 2014 1625. Zalevsky, Z; Abdulhalim, I Plasmonics, INTEGRATED NANOP- through 6 February 2014; Code 105326 HOTONIC DEVICES, 2ND EDITION, 179-245; 10.1016/B978-0- 323-22862-6.00006-2 2014 1635. Kasture, S., Ravishankar, A.P., Yallapragada, V.J., Patil, R., Va- lappil, N.V., Mulay, G., Achanta, V.G. Plasmonic quasicrys- 1624. Alisafaee, H., Fiddy, M.A. Nanoantennas for nanowire pho- tals with broadband transmission enhancement, Scienti€c tovoltaics, Applied Physics Letters Volume 105, Issue 11, 15 Reports 4, 11 June 2014, Article number 5257 September 2014, Article number 113107 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 115

1623. Almendral Parra, M.J., Paradinas, S.S. Spectroscopic Techni- 1613. Farooqi, Z.H., Khan, S.R., Begum, R., Kanwal, F., Sharif, A., ques Basedon the Use of Gold Nanoparticles, Comprehen- Ahmed, E., Majeed, S., Ijaz, K., Ijaz, A. E‚ect of acrylic acid sive Analytical Chemistry Volume 66, 2014, Pages 477-527 feed contents of microgels on catalytic activity of silver na- noparticles fabricated hybrid microgels, Turkish Journal of 1622. Chen, LX; Wang, YQ; Fu, XL; Chen, L Colorimetric Nano- Chemistry Volume 39, Issue 1, 2015, Pages 96-107 probes, Book Author(s): Chen, L (Chen, L); Wang, Y (Wang, Y); Fu, X (Fu, X); Chen, L (Chen, L) NOVEL OPTICAL NANO- 1612. Gromov, DG; Savitskiy, AI; Pavlova, LM; Borgardt, NI; Grishi- PROBES FOR CHEMICAL AND BIOLOGICAL ANALYSIS, 9-48; na, YS; Dubkov, SV; Trifonov, AY Formation of gold and silver 10.1007/978-3-662-43624-0-2 2014 cluster arrays using vacuum-thermal evaporation on a non- heated substrate, 2014 Source of the DocumentProceedings 1621. Mashayekh, M; Dorranian, D Size-dependent nonlinear op- of SPIE - The International Society for Optical Engineering tical properties and thermal lens in silver nanoparticles, OP- 9440, 94400E TIK, 125 (19):5612-5617; 10.1016/j.ijleo.2014.07.066 2014 1611. Goubet, N., Tempra, I., Yang, J., (...), Cerullo, G., Pileni, M.P. Si- 1620. Caldwell, A.H., Ha, D.-H., Ding, X., Robinson, R.D. Analytical ze and nanocrystallinity controlled gold nanocrystals: Synt- modeling of localized surface plasmon resonance in hete- hesis, electronic and mechanical properties, 2015 Nanosca- rostructure copper sul€de nanocrystals, Journal of Chemi- le 7 (7), pp. 3237-3246 cal Physics Volume 141, Issue 16, 28 October 2014, Article number 164125 1610. Vorobyev, A.Y., Guo, C. Multifunctional surfaces produced by femtosecond laser pulses, 2015 Journal of Applied Physics 1619.W unscher,¨ S., Abbel, R., Perelaer, J., Schubert, U.S. Progress 117 (3), 033103 of alternative sintering approaches of inkjet-printed metal inks and their application for manufacturing of ƒexible elec- 1609. Bouhadoun, S., Guillard, C., Dapozze, F., (...), Boucle, J., tronic devices, Journal of Materials Chemistry C Volume 2, Herlin-Boime, N. One step synthesis of N-doped and Au- Issue 48, 28 December 2014, Pages 10232-10261 loaded TiO2 nanoparticles by laser pyrolysis: Application in photocatalysis, 2015 Applied Catalysis B: Environmental 1618. Amiri, O., Salavati-Niasari, M., Ra€ei, A., Farangi, M. 147 % 174-175, pp. 367-375 Improved eciency of dye synthesized solar cells by using CdS QDs, Au nanorods and Au nanoparticles , RSC Advances 1608. Pileni, M.P. Nano-supracrystallinity, 2015 EPL 109 (5), 58001 Volume 4, Issue 107, 2014, Pages 62356-62361 1607. Gromov, D.G., Pavlova, L.M., Savitsky, A.I., Trifonov, A.Y. Nu- cleation and growth of Ag nanoparticles on amorphous car- 1617. Chadha, T.S., Park, J., An, W.J., Biswas, P. Gold nanocage bon surface from vapor phase formed by vacuum evapo- coupled single crystal TiO2 nanostructures for near-infrared ration, 2014 Applied Physics A: Materials Science and Pro- water photolysis, Journal of Nanoparticle Research Volume cessing 118 (4), pp. 1297-1303 16, Issue 11, 2014, 9p 1606. Messina, E., Donato, M.G., Zimbone, M., (...), Gucciardi, P.G., 1616. Moiseev, S.G., Ostatochnikov, V.A., Sementsov, D.I. Inƒuen- Marago, O.M. Optical trapping of silver nanoplatelets, 2015 ce of size e‚ects on the optical characteristics of a one- Optics Express 23 (7), pp. 8720-8730 dimensional photonic crystal with a nanocomposite defect, JETP Letters Volume 100, Issue 6, 4 December 2014, Pages 1605. Zhou, J., Wang, Z., Li, Q., (...), Wei, Y., You, J. Hybridi- 371-375 zed doxorubicin-Au nanospheres exhibit enhanced near- infrared surface plasmon absorption for photothermal the- 1615. Liu, L., Dao, T.D., Kodiyath, R., Kang, Q., Abe, H., Nagao, T., rapy applications, 2015 Nanoscale 7 (13), pp. 5869-5883 Ye, J. Plasmonic janus-composite photocatalyst comprising Au and C-TiO2 for enhanced aerobic oxidation over a broad 1604. Doosthosseini, F; Behjat, A; Hashemizadeh, S; Torabi, N Ap- visible-light range, Advanced Functional Materials Volume plication of silver nanoparticles as an interfacial layer in 24, Issue 48, 23 December 2014, Pages 7754-7762 cadmium sul€de quantum dot sensitized solar cells, JOUR- NAL OF NANOPHOTONICS, 9 10.1117/1.JNP.9.093092 FEB 17 1614. Moutet, P., Sangeetha, N.M., Ressier, L., Vilar-Vidal, N., Co- 2015 mesaOa-Hermo,` M., Ravaine, S., VallEe,` R.A.L., Gabudean, A.M., Astilean, S., Farcau, C Surface-enhanced spectros- 1603. Abdolghaderi, S., Sha€ekhani, A. E‚ect of deposition time copy on plasmonic oligomers assembled by AFM nanoxe- on structure of silver nanoparticles embedded in diamond- rography, Nanoscale Volume 7, Issue 5, 7 February 2015, like carbon matrix made by RF-PECVD method, 2015 Iranian Pages 2009-2022 Journal of Physics Research 14 (4), pp. 225-229 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 116

1602. Yu, H., Jiang, S., Wu, D. Ecient surface plasmon ampli€- and aggregation in the Au at Ag system, 2015 Journal of cation in gain-assisted silver nanotubes and associated di- Spectroscopy 2015, 676748 mers, 2015 Journal of Applied Physics 117 (15), 153101 1590. Lu, P; Li, J; Wang, D; Wan, LJ Si@Cu@Au AFM tips for tip- 1601. De Freitas, J.N., Nogueira, A.F. Incorporation of inorganic enhanced Raman spectrum, SCIENCE CHINA-CHEMISTRY, 58 nanoparticles into bulk heterojunction organic solar cells, (9):1494-1500; 10.1007/s11426-015-5353-6 SEP 2015 2012 (Book Chapter) Nanoenergy: Nanotechnology Applied for Energy Productionpp. 1-47 1589. Li, N., Tian, X., Zhang, W., (...), Li, G., Zhang, Z. Double Fano resonances in a planar pseudo-dolmen structure, 2015 Sen- 1600. Gong, X., Tang, J., Ji, Y., Wu, B., Wu, H., Liu, A. Adjustable sors and Actuators, A: Physical 234, pp. 346-350 plasmonic optical properties of hollow gold nanospheres monolayers and LSPR-dependent surface-enhanced Raman 1588. Ambaye, C.S., Zhang, G. The enhancement of local electric scattering of hollow gold nanosphere/graphene oxide hy- €eld and far€eld optical response of nanometallic shells, brids, 2015 RSC Advances 2015 Optik 126 (19), pp. 1894-1897

1599. Chen, J., Kang, Z., Lu, H., (...), Chen, N.-K., Ho, H.-P. Pho- 1587. Vlcek, J., Otipka, P., Lesnak, M., Vavra, I. E‚ective medium tochemically synthesized silver nanostructures on tapered approximation of anisotropic materials with radiative co- €ber as plasmonic tweezers for surface enhanced Raman rrection, 2015 Proceedings of SPIE - The International So- scattering applications, 2015 Vacuum 118, pp. 171-176 ciety for Optical Engineering 9502, 950217

1598. Strong, L.E., West, J.L. Optically modulated cancer thera- 1586. Zimbone, M., Messina, E., Compagnini, G., Fragala, M.E., Cal- peutic delivery: Past, present and future, 2015 Therapeutic cagno, L. Resonant depolarized dynamic light scattering of Delivery 6 (5), pp. 147-160 silver nanoplatelets, 2015 Journal of Nanoparticle Research 1597. Miskovsky, N.M., Cutler, P.H., Lerner, P.B., (...), Weisel, G.J., 17 (10), 402 Sullivan, T.E. Nanoscale rectennas with sharp tips for ab- 1585. Ren, QQ; Bai, LY; Zhang, XS; Ma, ZY; Liu, B; Zhao, YD; sorption and recti€cation of optical radiation (Book Chapter) Cao, YC Preparation, Modi€cation, and Application of Ho- 2014 Rectenna Solar Cellspp. 135-161 llow Gold Nanospheres, JOURNAL OF NANOMATERIALS, 1596. Ye, L., Guo, J., Jiang, L., Dai, X. Enhanced and controllable 10.1155/2015/534070 2015 nonlinear e‚ects in composite with aligned gold spheroid arrays, 2015 Journal of Nonlinear Optical Physics and Ma- 1584. Ghambari, T., Dorranian, D. Measurement of third-order terials 24 (1), 1550013 nonlinear susceptibility of Au nanoparticles doped PVA €lm, 2015 Optics and Spectroscopy (English translation of Optika 1595. Ji, A., Sharma, R., Pathak, H., Pathak, N.K., Sharma, R.P. Nu- i Spektroskopiya) 119 (5), pp. 838-848 merical simulation of plasmonic light trapping in thin-€lm Si solar cells: Surface coverage e‚ect, 2015 Journal of Physics 1583. Marocico, C.A., Zhang, X., Bradley, A.L. A theoretical inves- D: Applied Physics 48 (27), 275101 tigation of the inƒuence of gold nanosphere size on the de- cay and energy transfer rates and eciencies of quantum 1594. Shulyatev,´ A.S., Machnev, A.A., Gromov, D.G., (...), Mitrokhin, emitters, 2016 SJournal of Chemical Physics 144 (2), 024108 V.P., Mel?nikov, I.V. Anomalous transmission of disordered arrays of silver nanoclusters in the near- and mid-IR re- 1582. Ustarroz, J., Hubin, A., Terryn, H. Supported nanoparticle gions, 2015 Technical Physics Letters 41 (5), pp. 425-428 synthesis by electrochemical deposition, 2015, Handbook 1593. Shrivas, K., Shankar, R., Dewangan, K. Gold nanoparticles of Nanoparticles pp. 603-631 180 as a localized surface plasmon resonance based chemical 1581. Shrivas, K., Sahu, S., Ghorai, A., Shankar, R. Gold sensor for on-site colorimetric detection of arsenic in water nanoparticles-based colorimetric determination of cationic samples, 2015 Sensors and Actuators, B: Chemical 220, pp. surfactants in environmental water samples via both elec- 1376-1383 trostatic and hydrophobic interactions, 2016 Microchimica 1592. Fateixa, S., Nogueira, H.I.S., Trindade, T. Hybrid nanostruc- Acta 183 (2), pp. 827-836 tures for SERS: Materials development and chemical detec- 1580. Shrivas, K., Sahu, S., Patra, G.K., Jaiswal, N.K., Shankar, R. Lo- tion, Physical Chemistry Chemical Physics Volume 17, Issue calized surface plasmon resonance of silver nanoparticles 33, 20 April 2015, Pages 21046-21071 for sensitive colorimetric detection of chromium in surface 1591. Bhatia, P., Consiglio, J., Diniz, J., (...), Ritz-Schubert, S., Terrill, water, industrial waste water and vegetable samples, 2016 R.H. Onset of intense surface enhanced raman scattering Analytical Methods 8 (9), pp. 2088-2096 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 117

1579. Savariraj, A.D., Kim, H.-J., Viswanathan, K.K., Vijaykumar, with a cavity, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 49 M., Prabakar, K. Growth mechanisms and origin of localized (25):10.1088/0022-3727/49/25/25LT01 JUN 29 2016 surface plasmon resonance coupled exciton e‚ects in Cu2- xS thin €lms, 2016 RSC Advances 6 (23), pp. 19034-19040 1568. Kassab, L.R.P., Silva, D.M., Garcia, J.A.M., da Silva, D.S., de Araujo, C.B. Silver nanoparticles enhanced photolumines- 1578. Eugenio, M., Muller,¨ N., Frases, S., (...), De Souza, W., cence of Nd3+ doped germanate glasses at 1064 nm, 2016 SantAnna,´ C. Yeast-derived biosynthesis of silver/silver Optical Materials 60, pp. 25-29 chloride nanoparticles and their antiproliferative activity against bacteria, 2016 RSC Advances 6 (12) 9893-9904 1567. Carletti, L., Locatelli, A., Neshev, D., De Angelis, C. Shaping the Radiation Pattern of Second-Harmonic Generation from 1577. Amiri, O; Salavati-Niasari, M; Bagheri, S; Youse€, AT En- AlGaAs Dielectric Nanoantennas, 2016 ACS Photonics 3 (8), hanced DSSCs eciency via Cooperate co-absorbance (CdS pp. 1500-1507 QDs) and plasmonic core-shell nanoparticle (Ag at PVP), SCIENTIFIC REPORTS, 6 10.1038/srep25227 MAY 4 2016 1566. Takagai, Y., Miura, R., Endo, A., Hinze, W.L. One-pot synt- hesis with: In situ preconcentration of spherical mono- 1576. King, S.R., Shimmon, S., Gentle, A.R., (...), Dowd, A., McDo- dispersed gold nanoparticles using thermoresponsive 3- nagh, A.M. Remarkable thermal stability of gold nanoparti- (alkyldimethylammonio)-propyl sulfate zwitterionic surfac- cles functionalised with ruthenium phthalocyanine comple- tants, 2016 Chemical Communications 52 (65), pp. 10000- xes, 2016 Nanotechnology 27 (21), 215702 10003 1575. Li, WQ; Xiao, XH; Dai, ZG; Wu, W; Cheng, L; Mei, F; Zhang, 1565. Fiorenza, R., Bellardita, M., DUrso,´ L., (...), Palmisano, L., Sci- XG; Jiang, CZ Fabrication of highly homogeneous surface- re, S. Au/TiO2-CeO2 catalysts for photocatalytic water split- enhanced Raman scattering substrates using Ag ion implan- ting and VOCs oxidation reactions, 2016 Catalysts 6 (8), 121 tation, 2016 Journal of Physics Condensed Matter 28 (25), 254003 1564. Supriyono, Krisnandi, Y.K., Gunlazuardi, J. Electrodeposition 1574. Carrillo-Torres, R.C., Garcia-Soto, M.J., Morales-Chavez, S.D., of gold nanoparticles on mesoporous TiO2 photoelectrode (...), Barboza-Flores, M., Alvarez-Ramos, M.E. Hollow Au-Ag to enhance visible region photocurrent, 2016 AIP Conferen- bimetallic nanoparticles with high photothermal stability, ce Proceedings 1729, 020049 2016 RSC Advances 6 (47), 41304. 1563. Schopf, C; Noonan, E; Quinn, AJ; Iacopino, D Self-Assembly 1573. Derkachova, A; Kolwas, K; Demchenko, I Dielectric Function of Gold Nanocrystals into Discrete Coupled Plasmonic Struc- for Gold in Plasmonics Applications: Size Dependence of tures, CRYSTALS, 6 (9):10.3390/cryst6090117 SEP 2016 Plasmon Resonance Frequencies and Damping Rates for 1562. Aliabadi, M. One-step synthesis of highly ecient TiO2- Nanospheres, PLASMONICS, 11 (3):941-951; 10.1007/s11468- CdS-Ag nanocomposite for remove organic pollution, 2017 015-0128-7 JUN 2016 Separation and Puri€cation Technology 174, pp. 145-149 1572. Fragal, V.H., Cellet, T.S.P., Pereira, G.M., (...), Rubira, A.F., Sil- 1561. David, C., Christensen, J., Mortensen, N.A. Spatial disper- va, R. Covalently-layers of PVA and PAA and in situ formed sion in two-dimensional plasmonic crystals: Large blueshi†s Ag nanoparticles as versatile antimicrobial surfaces, 2016 promoted by di‚raction anomalies, 2016 Physical Review B International Journal of Biological Macromolecules 91, pp. 94 (16), 165410 329-337 1571. Baseggio, O., De Vetta, M., Fronzoni, G., (...), Fortunelli, A., 1560. Schopf, C., Noonan, E., Quinn, A.J., Iacopino, D. Self- Calzolari, A. Photoabsorption of Icosahedral Noble Metal assembly of gold nanocrystals into discrete coupled plas- Clusters: An Ecient TDDFT Approach to Large-Scale Sys- monic structures, 2016 Crystals 6 (9), 117 tems, 2016 Journal of Physical Chemistry C 120 (23), pp. 1559. Shrivas, K., Maji, P., Dewangan, K. Onsite-detection of ba- 12773-12782 rium and nickel from river, pond and tap water samples 1570. Ashkarran, AA; Daemi, S Tuning the Plasmon of Metallic using gold nanoparticles as a chemical sensor, 2017 Spec- Nanostructures: From Silver Nanocubes Toward Gold Na- trochimica Acta - Part A: Molecular and Biomolecular Spec- noboxes, PLASMONICS, 11 (4):1011-1017; 10.1007/s11468-015- troscopy 173, pp. 630-636 0136-7 AUG 2016 1558. Dousti, MR; Amjad, RJ Plasmon Assisted Luminescence in 1569. Wu, S; Deng, Z; Liu, JQ; Zhang, KY; Yu, LZ; Zhu, YY Multi- Rare Earth Doped Glasses, REVIEWS IN PLASMONICS 2015, ple out-of-plane plasmonic resonances in thick metallic rod 2015 339-386; Book Series: Reviews in Plasmonics 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 118

1557. Grasseschi, D., Toma, H.E. The SERS e‚ect in coordination porating silver nanoplates, NANOSCALE, 9 (23):7960-7969; chemistry, 2017 Coordination Chemistry Reviews 333, pp. 10.1039/c7nr01059a JUN 21 2017 108-131 1545. Wei, L; Ma, YH; Zhu, XP; Xu, JH; Wang, YX; Duan, 1556. Aziz, S.M., Sahar, M.R., Ghoshal, S.K. A basic insight on struc- HG; Xiao, LH Sub-di‚raction-limit localization imaging tural modi€cation of manganese oxide nanoparticles inclu- of a plasmonic nanoparticle pair with wavelengthresol- ded borotellurite glass with europium impurities, 2017 Jour- ved dark-€eld microscopy, NANOSCALE, 9 (25):8747-8755; nal of Non-Crystalline Solids 456, pp. 33-39 10.1039/c7nr02474f JUL 7 2017 1555. Fu, J., Liang, H., Zhang, J., (...), Zhang, Z., Lin, X. Enhanced 1544. Shrivas, K; Sahu, J; Maji, P; Sinha, D Label-free selec- optical absorbance and fabrication of periodic arrays on tive detection of ampicillin drug in human urine sam- nickel surface using nanosecond laser, 2017 Optics Com- ples using silver nanoparticles as a colorimetric sensing munications 389, pp. 170-175 probe, NEW JOURNAL OF CHEMISTRY, 41 (14):6685-6692; 10.1039/c7nj00448f JUL 21 2017 1554. Dayem, A.A., Hossain, M.K., Lee, S.B., (...), Choi, H.Y., Cho, S.-G. The role of reactive oxygen species (ROS) in the biolo- 1543. Marks, H., Schechinger, M., Garza, J., Locke, A., Cote, G. Sur- gical activities of metallic nanoparticles, 2017 International face enhanced Raman spectroscopy (SERS) for in vitro diag- Journal of Molecular Sciences 18 (1), 120 nostic testing at the point of care, (2017) Nanophotonics, 6 (4) pp. 681-701. 1553. Farrell, M.E., Strobbia, P., Pellegrino, P.M., Cullum, B. Surface regeneration and signal increase in surface-enhanced Ra- 1542. Mehrdel, B; Aziz, AA; Yoon, TL Resonance position and ex- man scattering substrates, 2017 Applied Optics 56 (3), pp. tinction eciency of a single silica coated gold nanos- B198-B213 hell when size e‚ects of core is matter, AIP, 1ST UKM- ISESCO-COMSATS INTERNATIONAL WORKSHOP ON NANO- 1552. Mahsa, F. Optical properties of manganese chiral single ring TECHNOLOGY FOR YOUNG SCIENTISTS (IWYS2016), 1838 by glancing angle deposition technique, 2017 International 10.1063/1.4982184 2017 Journal of Nanoelectronics and Materials 10 (1), pp. 29-38 1541. Long, N.V., Yang, Y., Thi, C.M., Lin, Z.L., Cao, Y., Nogami, 1551. Heinz, H., Pramanik, C., Heinz, O., (...), Moya, S., Ziolo, R.F. M. New developments of gold nanoparticles in plasmonic Nanoparticle decoration with surfactants: Molecular inter- sensing, (2016) New Developments in Gold Nanomaterials actions, assembly, and applications, 2017 Surface Science Research, pp. 117-146. Reports 72(1), pp. 1-58 1540. Atanasov, P.A. Gold nanostructures: Preparation, properties, 1550. Jahangiri, P., Zarrabi, F.B., Naser- Moghadasi, M., Saee Are- application in SERS, and biophotonics, (2017) Nanostructu- zoomand, A., Heydari, S. Hollow plasmonic high Q-factor res for Novel Therapy: Synthesis, Characterization and Ap- absorber for bio-sensing in mid-infrared application, 2017 plications, pp. 457-496. Optics Communications 394, pp. 80-85 1539. Kyaw, HH; Myint, MTZ; Al-Harthi, SH; Maekawa, T; Yanagi- 1549. Hong, JH; Jin, CH; Yuan, J; Zhang, Z Atomic Defects in Two- sawa, K; Sellai, A; Dutta, J Observation of exchanging role Dimensional Materials: From Single-Atom Spectroscopy to of gold and silver nanoparticles in bimetallic thin €lm upon Functionalities in Opto-/Electronics, Nanomagnetism, and annealing above the glass transition temperature, MATE- Catalysis, ADVANCED MATERIALS, 29 (14):SI 10.1002/ad- RIALS RESEARCH EXPRESS, 4 (8):10.1088/2053-1591/aa84e6 ma.201606434 APR 11 2017 AUG 2017 1548. Shakeel Ahmad, M., Pandey, A.K., Abd Rahim, N. Advance- 1538. Budnyk, A.P., Cherkasova, S.O., Damin, A. One-pot sol-gel ments in the development of TiO2 photoanodes and its fa- synthesis of porous silica glass with gold nanoparticles, brication methods for dye sensitized solar cell (DSSC) appli- 2017 Mendeleev Communications, 27(5), pp. 531-534. cations. A review, 2017 Renewable and Sustainable Energy 1537. Zadeh, SH; Rashidi-Huyeh, M; Palpant, B Enhancement of Reviews 77, pp. 89-108 the thermo-optical response of silver nanoparticles due to 1547. Mohammed, A.M. Au nanoparticle-modi€ed SiO2 thin €lm surface plasmon resonance, JOURNAL OF APPLIED PHYSICS, for DNA immobilization and hybridization, 2017 Chinese 122 (16):10.1063/1.4997276 OCT 28 2017 Journal of Physics 55(2), pp. 242-251 1536. Boken, J; Khurana, P; Thatai, S; Kumar, D; Prasad, S Plas- 1546. Hwang, HJ; Joo, SJ; Patil, SA; Kim, HS Eciency enhance- monic nanoparticles and their analytical applications: A ment in dye-sensitized solar cells using the shape/size- review, APPLIED SPECTROSCOPY REVIEWS, 52 (9):774-820; dependent plasmonic nanocomposite photoanodes incor- 10.1080/05704928.2017.1312427 2017 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 119

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1440. Koktan, J., Rezanka, P., Matejka, P., Kral, V. Stanoveni pomeru 1429. Lin, Y., Ding, Y., Jiang, X. Preparation and theranostic appli- enantiomeru L- a D-cysteinu pomoci nanocastic stribra — cations of polymer-inorganic hybrid nanospheres, Progress [Determination of the ratio of enantiomers L-and D-cysteine in Chemistry, Volume 26, Issue 2-3, March 2014, Pages 450- using silver nanoparticles], 2013, Chemicke Listy 107 (SPEC. 457 ISSUE 2) , pp. s240-s242 1428. Wang, Z., Zhai, S. , Zhai, B., Xiao, Z., An, Q. Preparation and 1439. Yang, Y., Pei, X.-L., Wang, Q.-M. Postclustering dynamic co- catalytic properties of nano-Au catalytic materials based valent modi€cation for chirality control and chiral sensing, on the reduction of 4-nitrophenol, Progress in Chemistry, 2013, Journal of the American Chemical Society 135 (43) , Volume 26, Issue 2-3, March 2014, Pages 234-247 pp. 16184-16191 1427. Knoppe, S., Burgi, T. Chirality in thiolate-protected gold clus- 1438. Siddiqui, A.A., Lakhtakia, A. Debye-H¸ckel solution for ters, Accounts of Chemical Research, Volume 47, Issue 4, 15 steady electro-osmotic ƒow of micropolar ƒuid in cylindrical April 2014, Pages 1318-1326 microcapillary, 2013, Applied Mathematics and Mechanics 1426. Zhang, L., Wang, E. Metal nanoclusters: New ƒuorescent pro- (English Edition) 34 (11) , pp. 1305-1326 bes for sensors and bioimaging, Nano Today, Volume 9, 1437. Pedicini, A.F., Reber, A.C., Khanna, S.N. The e‚ect of sulfur Issue 1, February 2014, Pages 132-157 covalent bonding on the electronic shells of silver clusters, 1425. Hao, C., Xu, L., Ma, W., Wang, L., Kuang, H. , Xu, C. Assembled 2013, Journal of Chemical Physics 139 (16) , art. no. 164317 plasmonic asymmetric heterodimers with tailorable chirop- 1436. Larsen, G.K., He, Y., Ingram, W., Zhao, Y. Hidden chirality in tical response, Small Volume 10, Issue 9, 14 May 2014, Pages super€cially racemic patchy silver €lms, 2013, Nano Letters 1805-1812 13 (12) , pp. 6228-6232 1424. Qian, H. Thiolate-protected Au38(SR)24 nanocluster: Size- 1435. Sinha, B; Goswami, T; Paul, S; Misra, A The impact of surface focusing synthesis, structure determination, intrinsic chira- structure and band gap on the optoelectronic properties lity, and beyond, Pure and Applied Chemistry Volume 86, of Cu2O nanoclusters of varying size and symmetry, RSC Issue 1, 22 January 2014, Pages 27-37 ADVANCES, 4 (10):5092-5104; 10.1039/c3ra45387a 2014 1423. Wang, X., Fu, J. , Wang, M., Wang, Y., Chen, Z., Zhang, J., 1434. Zhang, L., Xu, C., Liu, C., Li, B. Visual chiral recognition of Chen, J., Xu, Q. Facile synthesis of Au nanoparticles suppor- tryptophan enantiomers using unmodi€ed gold nanoparti- ted on polyphosphazene functionalized carbon nanotubes cles as colorimetric probes, 2014, Analytica Chimica Acta for catalytic reduction of 4-nitrophenol, Journal of Materials 809 , pp. 123-127 Science Volume 49, Issue 14, July 2014, Pages 5056-5065 1422. Caricato, M., Sharma, A.K., Coluccini, C., Pasini, D. Nanos- 1433. Yasukawa, T., Miyamura, H., Kobayashi, S. Chiral me- tructuring with chirality: Binaphthyl-based synthons for the tal nanoparticle-catalyzed asymmetric C-C bond formation production of functional oriented nanomaterials, Nanoscale reactions, Chemical Society Reviews 43 (5), 2014, Pages 6, Issue 13, 7 July 2014, Pages 7165-7174 1450-1461 1421. Wang, Z.-G., Ding, B. Engineering DNA self-assemblies as 1432. Qian, HF Thiolate-protected Au-38(SR)(24) nanocluster: templates for functional nanostructures, Accounts of Che- size-focusing synthesis, structure determination, intrinsic mical Research 47, Issue 6, 17 June 2014, Pages 1654-1662 chirality, and beyond, PURE AND APPLIED CHEMISTRY, 86 (1):27-37; 10.1515/pac-2014-5011 JAN 2014 1420. Cai, H., Wang, C., Li, B., Li, Y., Yang, Y Preparation and cha- racterization of single-handed twisted platinum tubular na- 1431. Heister, P., Lunskens,¨ T., ThAmer,´ M., Kartouzian, A., Gerlach, noribbons, Materials Letters Volume 133, 15 October 2014, S.a Verbiest, T., Heiz, U. Orientational changes of suppor- Pages 147-150 ted chiral 2,2-dihydroxy-1,´ 1binaphthyl´ molecules, Physical Chemistry Chemical Physics Volume 16, Issue 16, 28 April 1419. Liu, H., Shen, X., Wang, Z.-G., Kuzyk, A., Ding, B. Helical na- 2014, Pages 7299-7306 nostructures based on DNA self-assembly, Nanoscale Volu- me 6, Issue 16, 21 August 2014, Pages 9331-9338 1430. Wang, XS; Wang, Y; Zhu, JR; Xu, Y Hierarchical AgNR at Cys at AuNPs Helical Core-Satellite Nanostructure: 1418. Liu, C., Li, B. , Xu, C. Colorimetric chiral discrimination and Shape-Dependent Assembly and Chiroptical Response, determination of enantiometric excess of D/L-tryptophan JOURNAL OF PHYSICAL CHEMISTRY C, 118 (11):5782-5788; using silver nanoparticles, Microchimica Acta Volume 181, 10.1021/jp410620b MAR 20 2014 Issue 11-12, August 2014, Pages 1407-1413 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 124

1417. Polavarapu, L., Perez-Juste,´ J., Xu, Q.-H., Liz-Marzan,´ L.M. 1407. Wang, M., Fu, J., Chen, Z., Wang, X., Xu, Q. In situ growth Optical sensing of biological, chemical and ionic species of gold nanoparticles onto polyphosphazene microspheres through aggregation of plasmonic nanoparticles, Journal of with amino-groups for alcohol oxidation in aqueous solu- Materials Chemistry C Volume 2, Issue 36, 28 September tions, Materials Letters 143, pp. 201-204 (2015) 2014, Pages 7460-7476 1406. Persechini, L., Mcgilp, J.F. Probing chiral monolayers of cys- 1416. Nishida, N. , Kojima, Y., Tanaka, H. Intense plasmon-induced teine on Au(110) using reƒection anisotropy spectroscopy cotton e‚ects in colloidal silver triangular nanoplates synt- and second-harmonic generation, Physica Status Solidi (B) hesized by a ligand-exchange process, Chemistry Letters Basic Research Volume 252, Issue 1, 1 January 2015, Pages Volume 43, Issue 8, 2014, Pages 1227-1229 95-99

1415. Manzoor, D., Pal, S. Enhanced interaction of molecular oxy- 1405. Annadhasan, M., Kasthuri, J., Rajendiran, N. Green synthesis gen with amino acid complexes of silver and gold clusters, of gold nanoparticles under sunlight irradiation and their Indian Journal of Chemistry - Section A Inorganic, Physical, colorimetric detection of Ni2+ and Co2+ ions, RSC Advances Theoretical and Analytical Chemistry Volume 53, Issue 8-9, Volume 5, Issue 15, 2015, Pages 11458-11468 August-September 2014, Pages 996-1000 1404. Koktan, J., Sedlackova, H., Osante, I., Cativiela, C., Diaz Diaz, D., Rezanka, P. Chiral supramolecular nanoparticles: The 1414. Malola, S., Lehtovaara, L., Hakkinen,¨ H TDDFT analysis of study of chiral surface modi€cation of silver nanoparticles optical properties of thiol monolayer-protected gold and by cysteine and its derivatives, Colloids and Surfaces A: intermetallic silver-gold Au144(SR)60 and Au 84Ag60(SR)60 Physicochemical and Engineering Aspects Volume 470, April clusters, Journal of Physical Chemistry C Volume 118, Issue 01, 2015, Pages 142-148 34, August 28, 2014, Pages 20002-20008 1403. Islam, DA; Borah, D; Acharya, H Controlled synthesis of 1413. Agnes, M., Sorrenti, A., Pasini, D., Wurst, K., Amabilino, monodisperse silver nanoparticles supported layered dou- D.B. Crystal structure analyses facilitate understanding of ble hydroxide catalyst, RSC ADVANCES, 5 (17):13239-13245; synthesis protocols in the preparation of 6,6?-dibromo- 10.1039/c4ra14286a 2015 substituted BINOL compounds, CrystEngCommVolume 16, Issue 43, 21 November 2014, Pages 10131-10138 1402. Li, J; Li, HY; Hu, HF; Zhao, Y; Wang, Q Prepa- ration and application of polymer nano-€ber doped 1412. Barrabes,´ N. , Zhang, B., Burgi,¨ T. Racemization of chiral with nano-particles, OPTICAL MATERIALS, 40 49-56; Pd2Au36(SC2H4Ph)24: Doping increases the ƒexibility of the 10.1016/j.optmat.2014.11.045 FEB 2015 cluster surface, Journal of the American Chemical Society Volume 136, Issue 41, 15 October 2014, Pages 14361-14364 1401. Giese, M., Blusch, L.K., Khan, M.K., MacLachlan, M.J. Fun- ctional materials from cellulose-derived liquid-crystal tem- 1411. Shukla, N., Ondeck, N., Gellman, A.J. Quantitation of enan- plates, 2015 Angewandte Chemie - International Edition 54 tiospeci€c adsorption on chiral nanoparticles from optical (10), pp. 2888-2910 rotation, Surface Science Volume 629, November 2014, Pa- 1400. Zhou, P., Shi, R., Yao, J.-F., Sheng, C.-F., Li, H. Supramolecular ges 15-19 self-assembly of nucleotide-metal coordination complexes: 1410. Schlesinger, M., Giese, M., Blusch, L.K., Hamad, W.Y., Ma- From simple molecules to nanomaterials, 2015 Coordination clachlan, M.J. Chiral nematic cellulose-gold nanoparticle Chemistry Reviews 292, pp. 107-143 composites from mesoporous photonic cellulose, Chemical 1399. Gellman, AJ; Tysoe, WT; Zaera, F Surface Chemistry for Communications Volume 51, Issue 3, 11 January 2015, Pages Enantioselective Catalysis, CATALYSIS LETTERS, 145 (1):220- 530-533 232; 10.1007/s10562-014-1400-8 JAN 2015 1409. Shi, L., Li, B., Wu, L. Polyoxometalates as inorganic chiral 1398. Shukla, N; Ondeck, N; Khosla, N; Klara, S; Petti, A; Gellman, ligands for the synthesis of chiral nanoparticles, Chemical A Polarimetric Detection of Enantioselective Adsorption by Communications Volume 51, Issue 1, 4 January 2015, Pages Chiral Au Nanoparticles - E‚ects of Temperature, Wave- 172-175 length and Size, NANOMATERIALS AND NANOTECHNOLOGY, 5 10.5772/60109 JAN 27 2015 1408. Sharma, A., Mori, T., Lee, H.-C., Worden, M., Bidwell, E., Heg- mann, T. Detecting, visualizing, and measuring gold nano- 1397. Zhou, P., Shi, R., Yao, J.-F., Sheng, C.-F., Li, H. Supramolecular particle chirality using helical pitch measurements in nema- self-assembly of nucleotide-metal coordination complexes: tic liquid crystal phases, ACS Nano Volume 8, Issue 12, 23 From simple molecules to nanomaterials, 2015 Coordination December 2014, Pages 11966-11976 Chemistry Reviews 292, pp. 107-143 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 125

1396. Dolamic, I., Varnholt, B., Burgi,¨ T. Chirality transfer from gold 1385. Cao, YY; Che, SA Optically Active Chiral DNA-Silica Hy- nanocluster to adsorbate evidenced by vibrational circular brid Free-Standing Films, CHEMISTRY OF MATERIALS, 27 dichroism, 2015 Nature Communications 6, 7117 (23):7844-7851; 10.1021/acs.chemmater.5b02647 DEC 8 2015 1395. J.F., Severino, P., Souto, S.B., Souto, E.B. Nanomedicines for immunization and vaccines, 2013 (Book Chapter) Pa- 1384. Suzuki, N; Wang, YC; Elvati, P; Qu, ZB; Kim, K; Jiang, S; Bau- tenting Nanomedicines: Legal Aspects, Intellectual Property meister, E; Lee, J; Yeom, B; Bahng, JH; Lee, J; Violi, A; Kotov, and Grant Opportunities pp. 435-450 NA Chiral Graphene Quantum Dots, ACS NANO, 10 (2):1744- 1755; 10.1021/acsnano.5b06369 FEB 2016 1394. De Freitas, J.N., Nogueira, A.F. Incorporation of inorganic nanoparticles into bulk heterojunction organic solar cells, 1383. Dubarle-O‚ner, J., Moussa, J., Amouri, H., (...), Bouteiller, L., 2012 (Book Chapter) Nanoenergy: Nanotechnology Applied Raynal, M. Induced Circular Dichroism in Phosphine Gold(I) for Energy Productionpp. 1-47 Aryl Acetylide Urea Complexes through Hydrogen-Bonded Chiral Co-Assemblies, 2016 Chemistry - A European Journal 1393. Fernando, A; Dimuthu, KL; Weerawardene, M; Karimova, 22 (12), pp. 3985-3990 NV; Aikens, CM Quantum Mechanical Studies of Large Me- 1382. Nishimura, R., Yasutake, R., Yamada, S., (...), Nakahodo, T., tal, Metal Oxide, and Metal Chalcogenide Nanoparticles Fujihara, H. Chiral metal nanoparticles encapsulated by a and Clusters, CHEMICAL REVIEWS, 115 (12):6112-6216; SI chiral phosphine cavitand with the tetrakis-BINAP moiety: 10.1021/cr500506r JUN 24 2015 Their remarkable stability toward ligand exchange and ther- 1392. Guo, Y., Zhao, X., Long, T., (...), Liu, Z., Huang, C. Histidine- mal racemization, 2016 Dalton Transactions 45 (11), pp. mediated synthesis of chiral ƒuorescence gold nanoclus- 4486-4490 ters: Insight into the origin of nanoscale chirality, 2015 RSC 1381. Tashkhourian, J., Afsharinejad, M., Zolghadr, A.R. Colorime- Advances 5 (75), pp. 61449-61454 tric chiral discrimination and determination of S-citalopram 1391. Wang, Z., Xu, C., Li, X., Liu, Z. In situ green synthesis of Ag based on induced aggregation of gold nanoparticles, 2016 nanoparticles on tea polyphenols-modi€ed graphene and Sensors and Actuators, B: Chemical 232, pp. 52-59 their catalytic reduction activity of 4-nitrophenol, Colloids 1380. He, X; Wang, YC; Jiang, H; Zhao, L Structurally Well-De€ned and Surfaces A: Physicochemical and Engineering Aspects Sigmoidal Gold Clusters: Probing the Correlation between 485, 20151, pp. 102-110 Metal Atom Arrangement and Chiroptical Response, JOUR- NAL OF THE AMERICAN CHEMICAL SOCIETY, 138 (17):5634- 1390. Cheng, G., Di, J., Wang, Y. Chiroptical study of Metal at 5643; 10.1021/jacs.6b01658 MAY 4 2016 semiconductor-molecule composites: Interaction between cysteine and Ag at Ag 3PO4 core-shell hybrid nanorods, 1379. Long, TF; Guo, YJ; Lin, M; Yuan, MK; Liu, ZD; Huang, 2015 Journal of Physical Chemistry C 119 (38), pp. 22122- CZ Optically active red-emitting Cu nanoclusters origina- 22130 ting from complexation and redox reaction between cop- per(II) and D/L-penicillamine, NANOSCALE, 8 (18):9764- 1389. Hao, C., Xu, L., Ma, W., (...), Kuang, H., Xu, C. Unusual Circu- 9770; 10.1039/c6nr01492e 2016 larly Polarized Photocatalytic Activity in Nanogapped Gold- Silver Chiroplasmonic Nanostructures, 2015 Advanced Fun- 1378. Hakkinen, H Electronic Structure: Shell Structure and the Su- ctional Materials 25 (36), pp. 5816-5822 peratom Concept, PROTECTED METAL CLUSTERS: FROM FUN- DAMENTALS TO APPLICATIONS, 9 189-222; 10.1016/B978-0- 1388. Barcaro, G; Sementa, L; Fortunelli, A; Stener, M Optical pro- 08-100086-1.00008-7 2015, Book Series: Frontiers of Na- perties of nanoalloys, PHYSICAL CHEMISTRY CHEMICAL PHY- noscience SICS, 17 (42):27952-27967; 1 2015 1377. Ni, TW; Tofanelli, MA; Ackerson, CJ Structure Determination 1387. Bouri, M., Salghi, R., Zougagh, M., Rios, A. Enantioselective by Single Crystal X-ray Crystallography, PROTECTED METAL discrimination of menthone enantiomers by using achiral li- CLUSTERS: FROM FUNDAMENTALS TO APPLICATIONS, 9 103- quid chromatography with circular dichroism detection and 125; 10.1016/B978-0-08-100086-1.00005-1 2015, Book Se- penicillamine-coated gold nanoparticles, 2016 Microchemi- ries: Frontiers of Nanoscience cal Journal 124, pp. 736-742 1376. Fan, Z., Zhang, H., Schreiber, R., (...), Gun’ko, Y.K., Govorov, 1386. Tian, XR; Fang, YR; Sun, MT Formation of Enhanced Uniform A.O. Chiral nanostructures with plasmon and exciton reso- Chiral Fields in Symmetric Dimer Nanostructures, SCIENTIFIC nances, (Book Chapter) 2014 in Singular and Chiral Nano- REPORTS, 5 10.1038/srep17534 DEC 1 2015 plasmonics pp. 1-55 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 126

1375. Jin, R., Zeng, C., Zhou, M., Chen, Y. Atomically Precise Co- 1363. Wang, XA; Tang, ZY Circular Dichroism Studies on Plasmonic lloidal Metal Nanoclusters and Nanoparticles: Fundamen- Nanostructures, SMALL, 13 (1):10.1002/smll.201601115 JAN 4 tals and Opportunities, 2016 Chemical Reviews 116 (18), pp. 2017 10346-10413 1362. Amabilino, D.B. Chiral Inƒuences in Functional Molecular 1374. Mori, T., Sharma, A., Hegmann, T. Signi€cant enhancement Materials, (Book Chapter) 2016 Chirality in Supramolecular of the chiral correlation length in nematic liquid crystals Assemblies: Causes and Consequences pp. 159-189 by gold nanoparticle surfaces featuring axially chiral bi- 1361. Yao, HZ; Zhong, SC; Yi, H; Cui, DX; Pan, CL Handedness- naphthyl ligands, 2016 ACS Nano 10 (1), pp. 1552-1564 Switchable Optical Chirality in One-Dimensional Periodic 1373. Yan, JZ; Su, HF; Yang, HY; Hu, CY; Malola, S; Lin, SC; Teo, Plasmonic-Grooves for Circular Dichroism and Simultaneo- BK; Hakkinen, H; Zheng, NF Asymmetric Synthesis of Chiral us Refractive Index Sensing, IEEE PHOTONICS JOURNAL, 9 Bimetallic [Ag28Cu12(SR)(24)](4-) Nanoclusters via Ion Pai- (3):10.1109/JPHOT.2017.2690989 JUN 2017 ring, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 138 1360. Ma, W; Xu, LG; de Moura, AF; Wu, XL; Kuang, H; Xu, CL; Kotov, (39):12751-12754; 10.1021/jacs.6b08100 OCT 5 2016 NA Chiral Inorganic Nanostructures, CHEMICAL REVIEWS, 117 1372. Kumar, J., Thomas, K.G., Liz-Marzan, L.M. Nanoscale chira- (12):8041-8093; 10.1021/acs.chemrev.6b00755 JUN 28 2017 lity in metal and semiconductor nanoparticles, 2016 Che- 1359. Zaera, F. The Surface Chemistry of Metal-Based Hydroge- mical Communications 52 (85), pp. 12555-12569 nation Catalysis, (2017) ACS Catalysis, 7 (8) pp. 4947-4967. 1371. Yao, H. Chiral ligand-protected gold nanoclusters: Conside- 1358. Imanaka, Y; Nakahodo, T; Fujihara, H Chiral Copper(0) Na- ring the optical activity from a viewpoint of ligand dissym- noparticles: Direct Synthesis and Interfacial Chiral Induction metric €eld, 2016 Progress in Natural Science: Materials In- via Phase Transfer of Copper Nanoparticles, CHEMISTRY- ternational 26 (5), pp. 428-439 SELECT, 2 (21):5806-5809; 10.1002/slct.201700766 JUL 21 2017 1370. Liang, Zhumei; Bernardino, Kalil; Han, Jishu; et al. Optical anisotropy and sign reversal in layer-by-layer assembled 1357. Chen, LS; Liu, S; Chang, FX; Xie, X; Zhu, ZW A Gold €lms from chiral nanoparticles, FARADAY DISCUSSIONS Vo- Nanoparticles-Enhanced Carbon Nanotubes Electrochemi- lume: 191 Pages: 141-157 cal Chiral Sensor, ELECTROANALYSIS, 29 (4):955-959; 10.1002/elan.201600747 APR 2017 1369. Ferrando, R. Optical properties of nanoalloys, 2016 Frontiers of Nanoscience 10, pp. 267-287 1356. Zeng, CJ; Jin, RC Chiral Gold Nanoclusters: Atomic Le- vel Origins of Chirality, CHEMISTRY-AN ASIAN JOURNAL, 12 1368. Schaferling, M. Chiroptical spectroscopy, 2017 Springer Se- (15):1839-1850; 10.1002/asia.201700023 AUG 4 2017 ries in Optical Sciences 205, pp. 43-60 1355. Brach, K; Waszkielewicz, M; Olesiak-Banska, J; Samoc, M; 1367. Takano, S., Tsukuda, T. Ampli€cation of the Optical Activity Matczyszyn, K Two-Photon Imaging of 3D Organization of of Gold Clusters by the Proximity of BINAP, 2016 Journal of Bimetallic AuAg Nanoclusters in DNA Matrix, LANGMUIR, Physical Chemistry Letters 7 (22), pp. 4509-4513 33 (36):8993-8999; 10.1021/acs.langmuir.7b00873 SEP 12 1366. Grasseschi, D., Toma, H.E. The SERS e‚ect in coordination 2017 chemistry, 2017 Coordination Chemistry Reviews 333, pp. 1354. Huo, SW; Duan, PF; Jiao, TF; Peng, QM; Liu, MH Self- 108-131 Assembled Luminescent Quantum Dots To Generate Full- 1365. Yao, H; Shiratsu, T Improving the Quality of Color and White Circularly Polarized Light, ANGEWAND- Electrophoretically-fractionated Chiral Au-38(SG)(24) TE CHEMIE-INTERNATIONAL EDITION, 56 (40):12174-12178; Nanoclusters through a Stepwise Phase-transfer Extraction 10.1002/anie.201706308 SEP 25 2017 Process: An Absorption and CD Spectroscopic Study, 1353. Wei, JJ; Guo, YJ; Li, JZ; Yuan, MK; Long, TF; Liu, ZD Optically CHEMISTRY LETTERS, 46 (1):104-107; 2017 Active Ultra€ne Au-Ag Alloy Nanoparticles Used for Colo- rimetric Chiral Recognition and Circular Dichroism Sensing 1364. Visheratina, AK; Purcell-Milton, F; Serrano-Garcia, R; Kuz- of Enantiomers, ANALYTICAL CHEMISTRY, 89 (18):9781-9787; netsova, VA; Orlova, AO; Fedorov, AV; Baranov, AV; Gunko, 10.1021/acs.analchem.7b01723 SEP 19 2017 Y.K. Chiral recognition of optically active CoFe2O4 magne- tic nanoparticles by CdSe/CdS quantum dots stabilised with 1352. Ferrando, R Structure and Properties of Nanoalloys, STRUC- chiral ligands, 2017 Journal of Materials Chemistry C 5(7), TURE AND PROPERTIES OF NANOALLOYS, 10 1-337; 2016 pp. 1692-1698 Book Series: Frontiers of Nanoscience 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 127

1351. Jiang, S; Chekini, M; Qu, ZB; Wang, YC; Yeltik, A; Liu, YG; 1341. Huang, H., Wang, H., Wu, Y., Shi, Y., Deng, J. Chiral, crosslin- Kotlyar, A; Zhang, TY; Li, B; Demir, HV; Kotov, NA Chiral ked, and micron-sized spheres of substituted polyacetylene Ceramic Nanoparticles and Peptide Catalysis, JOURNAL OF prepared by precipitation polymerization, Polymer (United THE AMERICAN CHEMICAL SOCIETY, 139 (39):13701-13712; Kingdom), 139, pp. 76-85. 10.1021/jacs.7b01445 OCT 4 2017 1340. Thomas, R., Kumar, J., George, J., (...), Swathi, R.S., Thomas, 1350. Buckhout-White, S., Ancona, M., Gemmill, K.B., Goldman, K.G. Coupling of Elementary Electronic Excitations: Drawing E.R., Medintz, I.L. Characterizing functionalized DNA for Use Parallels between Excitons and Plasmons, Journal of Physi- in nanomedicine (Book Chapter) 2013 DNA and RNA Na- cal Chemistry Letters, 9(4), pp. 919-932. nobiotechnologies in Medicine: Diagnosis and Treatment of TIPO B (2): Diseases pp. 11-41 1339. Molina, B., Sanchez-Castillo, A., Knoppe, S., Garzon, I.L., 1349. Yuan, MK; Guo, YJ; Wei, JJ; Li, JZ; Long, TF; Liu, ZD Opti- Burgi,¨ T., Tlahuice-Flores, A. Structures and chiroptical pro- cally active blue-emitting carbon dots to speci€cally target perties of the BINAS-monosubstituted Au 38(SCH3)24 clus- the Golgi apparatus, RSC ADVANCES, 7 (79):49931-49936; ter, 2013, Nanoscale 5 (22) , pp. 10956-10962 10.1039/c7ra09271g 2017 1338. Pelayo, J.J., Whetten, R.L., Garzon,´ I.L. Geometric Quanti€- cation of Chirality in Ligand-Protected Metal Clusters, 2015 1348. Tashkhourian, J; Afsharinejad, M A novel colorimetric sensor Journal of Physical Chemistry C 119 (51), pp. 28666-28678 for sensitive determination of R-citalopram based on the plasmonic properties of silver nanoparticles, NEW JOURNAL ´ OF CHEMISTRY, 41 (22):13881-13888; 10.1039/c7nj02962d ARTICULO (citas 111): NOV 21 2017 Optical Properties of Isolated and Supported Metal Nanoparticles, Cecilia Noguez, Opt Materials 27, 1204 1347. Yang, HY; Yan, JZ; Wang, Y; Deng, GC; Su, HF; Zhao, XJ; Xu, (2005) CF; Teo, BK; Zheng, N.F. From Racemic Metal Nanoparticles to Optically Pure Enantiomers in One Pot, 2017 Journal of TIPO A (111): the American Chemical Society 139(45), pp. 16113-16116 1337. H Yao, K Miki, N Nishida, A Sasaki, K Kimura, Large Optical 1346. He, J., Wang, Y., Fan, Z., Wang, Y., Zhang, H., Chen, H. Spi- Activity of Gold Nanocluster Enantiomers Induced by a Pair rals and helices by asymmetric active surface growth, 2017 of Optically Active Penicillamines, J. Am. Chem. Soc. (2005) Nanoscale 9(46), pp. 18352-18358 127, 15536 1345. de Freitas, J.N., de Carvalho Alves, J.P., Nogueira, A.F. Hy- 1336. Lin, Z.; Orlov, A.; Lambert, R. M.; Payne, M. C.; New In- brid solar cells: E‚ects of the incorporation of inorganic sights into the Origin of Visible Light Photocatalytic Activity nanoparticles into bulk heterojunction organic solar cells, of Nitrogen-Doped and Oxygen-De€cient Anatase TiO2, J. (Book Chapter) 2017 Nanoenergy: Nanotechnology Applied Phys. Chem. B (2005) 109, 20948 for Energy Production: Second Edition pp. 1-68 1335. A Babapour, O Akhavan, R Azimirad and A Z Moshfegh, Phy- 1344. Matsuno, M; Noor, S; Numata, T; Haraguchi, T; Akitsu, T; Ha- sical characteristics of heat-treated nano-silvers dispersed ra, M Synthesis and structural characterization of new [Cu- in sol–gel silica matrix, Nanotechnology 17, 763 (2006) II-TiO2] composites from Cu-II-salen as precursors, JOUR- 1334. Railing Chang and P. T. Leung , Nonlocal e‚ects on optical NAL OF THE INDIAN CHEMICAL SOCIETY, 94 (10):1089-1098; and molecular interactions with metallic nanoshells, Phys. OCT 2017 Rev. B 73, 125438 (2006).

1343. Yuan, WZ; Chen, XN; Xu, YF; Yan, C; Liu, Y; Lian, WS; Zhou, 1333. Kooij, ES; Poelsema, B; Shape and size e‚ects in the optical Y; Li, ZH Preparation and recyclable catalysis performance properties of metallic nanorods, Phys Chem Chem Phys 8, of functional macroporous polyHIPE immobilized with gold 3349 (2006) nanoparticles on its surface, 2018 RSC Advances 8(11), pp. 1332. Wohlrab, S.; Weiss, M.; Du, H.; Kaskel, S.; Synthesis of MN- 5912-5919 bO3 Nanoparticles (M = Li, Na, K), Chem. Mater. (2006) 18, 4227 1342. Zhang, QY; Zhao, L Chiral metal cluster and nano- cluster complexes and their application in asymme- 1331. Yin, G; Wang, SY; Xu, M; Chen, LY; Theoretical calculation tric catalysis, TETRAHEDRON LETTERS, 59 (4):310-316; of the optical properties of gold nanoparticles, J of Korean 10.1016/j.tetlet.2017.12.006 JAN 24 2018 Phys Society 49, 2108 (2006) 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 128

1330. G. Mattei, P. Mazzoldi, M. L. Post, D. Buso, M. Guglielmi, 1317. Kim SW, Hui BJ, Bae DS; Anomalous absorption of isola- A. Martucci, Cookie-like Au/NiO Nanoparticles with Optical ted silver nanoparticulate €lms in visible region of electro- Gas-Sensing Properties Advanced Materials 19, 561 (2007) magnetic €eld, J of Nanoscience & Nanotechnology 8, 739 (2008) 1329. Nishida, N.; Yao, H.; Ueda, T.; Sasaki, A.; Kimura, K. Synthe- sis and Chiroptical Study of D/L-Penicillamine-Capped Silver 1316. D Barreca, A. Gasparotto, C Maccato, E Tondello, Silica- Nanoclusters, Chemistry of Materials 19, 2831 (2007) sandwiched Au nanoparticle arrays by a so† PE-CVD/RF sputtering approach, Nanotechnology 19, 255602 (2008) 1328. A. Azarian, A. Iraji zad and A. Dolati, An optical study of cobalt nanowires dispersed in liquid phase, Optics Commu- 1315. Gnanavel, M., Sunandana, C.S.; Optics of triangular Mie par- nications 274, 471 (2007) ticles in ultrathin Ag €lms, Proceedings of SPIE - The Interna- tional Society for Optical Engineering 6901, art. no. 69011E 1327. Jayabalan, J., Singh, A., Chari, R., Oak, S.M., Ultrafast third- 1314. O. Pena-Rodr˜ ´ıguez, U. Pal, L. Rodr´ıguez-Fernandez,´ A. order nonlinearity of silver nanospheres and nanodiscs, Na- Crespo-Sosa; Linear optical response of metallic nanoshells notechnology 18 art. no. 315704 (2007). in di‚erent dielectric media, Journal of the Optical Society 1326. Ovchinnikov, V., Priimagi, A., Anisotropic plasmon resonance of America B: Optical Physics 25, 1371 (2008) of surface metallic nanostructures prepared by ion beam 1313. Olson, T.Y., Zhang, J.Z., Structural and optical properties and mixing, First International Conference on Quantum, Nano, emerging applications of metal nanomaterials, Journal of and Micro Technologies, ICQNM 2007, art. no. 4076996. Materials Science and Technology 24 433 (2008) 1325. J Toudert, D Babonneau, S Camelio, T Girardeau, F Yubero, J 1312. Albella, P., Moreno, F., Saiz, J.M., Gonzalez,´ F. Surface ins- P Espinos´ and A R Gonzalez-Elipe, Using ion beams to tune pection by monitoring spectral shi†s of localized plasmon the nanostructure and optical response of co-deposited Ag resonances, Optics Express 16, 12872 (2008) : BN thin €lms, J. Phys. D: Appl. Phys. 40, (2007) 4614 1311. Reyes-Esqueda, J.A., Salvador, A.B., Zanella, R., Size con- 1324. V.V. Klimov and D.V. Guzatov, Pasmonic atoms and plasmo- trol of Au nanoparticles on TiO2 and Al 2O3 by DP Urea: nic molecules, Journal Applied Physics A: Materials Science Optical absorption and electron microscopy as control pro- & Processing, 89, 305 (2007) bes, Journal of Nanoscience and Nanotechnology 8, 3843 (2008) 1323. Ye, X.; Zhou, Y.; Chen, J.; Sun, Y. Synthesis and infrared emis- sivity study of collagen-g-PMMA/Ag at TiO2 composite, Ma- 1310. Ovchinnikov, V., Shevchenko, A., Surface plasmon resonan- terials Chemistry & Physics 106, 447 (2007) ces in di‚usive reƒection spectra of multilayered silver nanocomposite €lms, Proceedings - The 2nd International 1322. Keiko Munechika, Jessica M. Smith, Yeechi Chen, and David Conference on Quantum-, Nano- and Micro-technologies, S. Ginger, Plasmon Line Widths of Single Silver Nanoprisms ICQNM 2008, art. no. 4455929, pp. 40-44 (2008) as a Function of Particle Size and Plasmon Peak Position, J. Phys. Chem. C 111, 18906 (2007) 1309. Kumar, P, Krishna MG, Bhattacharya AK, Electric-€eld- induced nanostructuring of metallic thin €lms, International 1321. J Toudert, D Babonneau, L Simonot, S Camelio and T Gi- Journal of Nanoscience 7 255 (2008) rardeau, Quantitative modelling of the surface plasmon re- 1308. H. Portales,´ N Pinna, M.-P. Pileni, Optical Response of Ultra- sonances of metal nanoclusters sandwiched between die- €ne Spherical Silver Nanoparticles Arranged in Hexagonal lectric layers: the inƒuence of nanocluster size, shape and Planar Arrays Studied by the DDA Method, J. Phys. Chem. A organization, Nanotechnology 19, 125709 (2008) 113, 4094 (2009) 1320. Kebin Li, Liviu Clime, Bo Cui and Teodor Veres, Surface 1307. M. Loncaric, J. Sancho-Parramon, M. Pavlovic, H. Zorc, P. enhanced Raman scattering on long-range ordered noble- Dubcek, A. Turkovic, S. Bernstor‚, G. Jakopic, A. Haase, Op- metal nanocrescent arrays Nanotechnology 19 ,145305 tical and structural characterization of silver islands €lms (2008) on glass substrates, Vacuum 84, 188 (2009) 1319. Nishida, N.; Yao, H.; Kimura, K., Chiral Functionalization of 1306. T. 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1281. Ngo, YH; Li, D; Simon, GP; Gamier, G; Paper surfaces fun- 1271. Murai, S., Tokuda, Y., Fujita, K., Tanaka, K. Tuning the wave- ctionalized by nanoparticles, ADVANCES IN COLLOID AND length of ampli€ed spontaneous emission coupled to loca- INTERFACE SCIENCE 163 (1): 23-38 10.1016/j.cis.2011.01.004 lized surface plasmon, 2012, Applied Physics Letters 101 (3) MAR 15 2011 , art. no. 031117 1280. Wu, PC; Losurdo, M; Kim, TH; Garcia-Cueto, B; Moreno, F; 1270. Kelly, J.M., Keegan, G., Brennan-Fournetb, M.E. Triangu- Bruno, G; Brown, AS Ga-Mg Core-Shell Nanosystem for a lar silver nanoparticles: Their preparation, functionalisation Novel Full Color Plasmonics, JOURNAL OF PHYSICAL CHE- and properties, 2012, Acta Physica Polonica A 122 (2) , pp. MISTRY C 115 (28): 13571-13576 10.1021/jp201423r JUL 21 337-345 2011 1269. Babapour, A; Yang, B; Bahang, S; Cao, W Biocide Silver Na- 1279. Dorfs, D; Hartling, T; Miszta, K; Bigall, NC; Kim, MR; Geno- noparticles in Two Di‚erent Silica-Based Coating, INTER- vese, A; Falqui, A; Povia, M; Manna, L Reversible Tunability NATIONAL CONFERENCE ON FUNDAMENTAL AND APPLIED of the Near-Infrared Valence Band Plasmon Resonance in SCIENCES 2012 (ICFAS2012), AIP Conference Proceedings Cu(2-x)Se Nanocrystals, JOURNAL OF THE AMERICAN CHE- 1482 681-684; 10.1063/1.4757558 2012 MICAL SOCIETY 133 (29): 11175-11180 10.1021/ja2016284 JUL 27 2011 1268. K Wongravee, T Parnklang, P Pienpinijtham, C Lertvachira- paiboon, Y Ozaki, C Thammacharoen, S Ekgasit Chemome- 1278. Albella, P., Garcia-Cueto, B., Gonzalez,´ F., Moreno, F., Wu, tric analysis of spectroscopic data on shape evolution of P.C., Kim, T.-H., Brown, A., Yang, Y., Everitt, H.O., Videen, silver nanoparticles induced by hydrogen peroxide, Phys. G. Shape matters: Plasmonic nanoparticle shape enhances Chem. Chem. Phys., 2013, 15, 4183-4189 interaction with dielectric substrate, Nano Letters 11 (9), pp. 3531-3537 2011 1267. L M Payne, W Langbein, P Borri Polarization-resolved ex- tinction and scattering cross-section of individual gold na- 1277. Chen, F., Dai, S., Xu, T., Shen, X., Lin, C., Nie, Q., Liu, C., Heo, noparticles measured by wide-€eld microscopy on a large J. Surface-plasmon enhanced ultrafast third-order optical ensemble, Appl. Phys Lett 102 (13) , art. no. 131107 (2013) nonlinearities in ellipsoidal gold nanoparticles embedded bismuthate glasses, Chemical Physics Letters 514 (1-3), pp. 1266. Pena-Rodr˜ ´ıguez, O., Pal, U. (2013) Exploiting the Tunable Op- 79-82 2011 tical Response of Metallic Nanoshells. In UV-VIS and Photo- luminescence Spectroscopy for Nanomaterials Characteri- 1276. Pullini, D., Carotenuto, G., Palomba, M., Mosca, A., Horse- zation (pp. 99-149). Springer Berlin Heidelberg. well, A., Nicolais, L. In situ synthesis of high-density contact- free Ag-nanoparticles for plasmon resonance polystyrene 1265. Saion, E., Gharibshahi, E., Naghavi, K. Size-controlled and nanocomposites, Journal of Materials Science 46 (24), pp. optical properties of monodispersed silver nanoparticles 7905-7911 2011 synthesized by the radiolytic reduction method, 2013, In- ternational Journal of Molecular Sciences 14 (4) , pp. 7880- 1275. Kassab, L.R.P., Freitas, L.F., Assumpcao, T.A.A., Da Silva, D.M., 7896 De Araujo, C.B. Frequency upconversion properties of Ag: TeO2-ZnO nanocomposites codoped with Yb3+ and Tm3+ 1264. Cheng, J.-W., Chen, F.-F., Dai, S.-X., Xu, Y.-S., Tan, R.-Q. Study ions, Applied Physics B: Lasers and Optics 104 (4), pp. 1029- on spectroscopy and third-order optical nonlinear charac- 1034 2011 teristics of Ag-nanoparticles embedded bismuthate glass, 2013, Spectroscopy and Spectral Analysis 33 (6) , pp. 1642- 1274. Rostami, G., Shahabadi, M., Afzali-Kusha, A., Rostami, A. 1646 EIT based tunable metal composite spherical nanoparticles, Photonics and Nanostructures - Fundamentals and Applica- 1263. R Krahne, L Manna, G Morello, A Figuerola, C George, and S tions 10 (1) , pp. 102-111 2012 Deka NanoScience and Technology, pages 87–131. Springer Berlin Heidelberg, 2013. 1273. Brenier, R. Enhancement of light transmission through silver nanoparticles, Journal of Physical Chemistry C 116 (9) , pp. 1262. You, J., Leonard, K., Takahashi, Y., Yonemura, H., Yamada, S. 5358-5366, 2012 E‚ects of silver nanoparticles with di‚erent sizes on pho- tochemical responses of polythiophene-fullerene thin €lms, 1272. Zhu, S; Chen, TP; Liu, YC; Liu, Y; Fung, S A quantitative mo- 2014, Physical Chemistry Chemical Physics 16 (3) , pp. 1166- deling of the contributions of localized surface plasmon re- 1173 sonance and interband transitions to absorbance of gold nanoparticles, JOURNAL OF NANOPARTICLE RESEARCH, 14 1261. Hassellov, M., Kaegi, R. Analysis and Characterization of Ma- (5):10.1007/s11051-012-0856-y MAY 2012 nufactured Nanoparticles in Aquatic Environments (Chapter 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 131

), 2009, Environmental and Human Health Impacts of Na- 1250. Ibragimova, E.M., Mussaeva, M.A., Buzrikov, S. Recombina- notechnology tion gamma-luminescence at the nanometal Li - dielectric LiF interfaces, 2015 Radiation Physics and Chemistry 111, pp. 1260. Hu, Y., Qiu, J., Song, Z., Zhou, D Ag2O dependent up- 40-45 conversion luminescence properties in Tm 3+/Er3+/Yb3+ co- doped oxyƒuorogermanate glasses, Journal of Applied Phy- 1249. Lopatynskyi, A.M., Lytvyn, V.K., Nazarenko, V.I., (...), Lucas, sics Volume 115, Issue 8, 2014, Article number 083512 B.D., Chegel, V.I. Au nanostructure arrays for plasmonic ap- 1259. Zhu, XM; Ma, X; Chang, HM; Tao, HZ; Zhao, XJ Morphology plications: annealed island €lms versus nanoimprint litho- tuning of mono-disperse silver nanoparticles by reaction graphy, 2015 Nanoscale Research Letters 10 (1), pp. 1-9 temperature adjustment, JOURNAL OF WUHAN UNIVERSITY 1248. Gupta, R.K., Dubey, M., Li, P.Z., Xu, Q., Pandey, D.S. Size- OF TECHNOLOGY-MATERIALS SCIENCE EDITION, 29 (1):40- controlled synthesis of Ag nanoparticles functionalized by 43; 10.1007/s11595-014-0864-0 FEB 2014 heteroleptic dipyrrinato complexes having meso- pyridyl 1258. Pamies, R., Cifre, J.G.H., Espin, V.F., Collado-Gonzalez, M., substituents and their catalytic applications, 2015 Inorganic Banos,˜ F.G.D., De La Torre, J.G. Aggregation behaviour of Chemistry 54 (6), pp. 2500-2511 gold nanoparticles in saline aqueous media, (2014) Journal 1247. Monti, A; Alu, A; Toscano, A; Bilotti, F Optical invisibility of Nanoparticle Research, 16 (4), art. no. 2376 through metasurfaces made of plasmonic nanoparticles, 1257. Krishnan, A. , Das, S., Krishna, S.R., Khan, M.Z.A Multilayer JOURNAL OF APPLIED PHYSICS, 117 (12):10.1063/1.4916257 nanoparticle arrays for broad spectrum absorption enhan- MAR 28 2015 cement in thin €lm solar cells, Optics Express Volume 22, 1246. Amendola, V., Saija, R., Marago, O.M., Iati, M.A. Superior Issue SUPPL. 3, 2014, Pages A800-A811 plasmon absorption in iron-doped gold nanoparticles, 2015 1256. Sajid, M.H., Said, Z., Saidur, R., Adikan, F.R.M., Sabri, M.F.M., Nanoscale 7 (19), pp. 8782-8792 Rahim, N.A A time variant investigation on optical properties of water based Al2O3 nanoƒuid, International Communica- 1245. Sardana, SK; Chava, VSN; Komarala, VK Morphology and tions in Heat and Mass Transfer Volume 50, 2014, Pages optical properties of sputter deposited silver nanoparti- 108-116 cles on plain, textured and antireƒection layer coated textured silicon, APPLIED SURFACE SCIENCE, 347 651-656; 1255. Wu, W., Maye, M.M. Discrete dipole approximation analy- 10.1016/j.apsusc.2015.04.145 AUG 30 2015 sis of plasmonic core/alloy nanoparticles, ChemPhysChem Volume 15, Issue 12, 25 August 2014, Pages 2582-2587 1244. Monti, A., Alu, A., Toscano, A., Bilotti, F. Optical invisibility th- rough metasurfaces made of plasmonic nanoparticles, 2015 1254. Zhang, P; Li, SB; Liu, CH; Wei, XB; Wu, ZM; Jiang, YD; Chen, Z Journal of Applied Physics 117 (12), 123103 Near-infrared optical absorption enhanced in black silicon via Ag nanoparticle-induced localized surface plasmon, NA- 1243. Xu, Y., Xuan, Y. Design principle for absorption enhance- NOSCALE RESEARCH LETTERS, 9 10.1186/1556-276X-9-519 ment with nanoparticles in thin-€lm silicon solar cells, 2015 SEP 22 2014 Journal of Nanoparticle Research 17 (7), 314

1253. Said, Z., Saidur, R., Rahim, N.A. Optical properties of metal 1242. Leong, K.Y., Ong, H.C., Amer, N.H., (...), Risby, M.S., Ku Ah- oxides based nanoƒuids, International Communications in mad, K.Z. An overview on current application of nanoƒuids Heat and Mass Transfer Volume 59, December 01, 2014, in solar thermal collector and its challenges, 2016 Renewa- Pages 46-54 ble and Sustainable Energy Reviews 53, pp. 1092-1105

1252. Sajid Hossain, M.a , Saidur, R.ab , Mohd Sabri, M.F.a , Said, 1241. Loncaric, M; Sancho-Parramon, J; Zorc, H; Segota, S; Dub- Z.ac , Hassani, S. Spotlight on available optical properties cek, P; Bernstor‚, S Optical and structural characterization and models of nanoƒuids: A review, Renewable and Sustai- of gold island €lms on glass substrates, THIN SOLID FILMS, nable Energy Reviews Volume 43, March 2015, Pages 750- 591 204-209; 10.1016/j.tsf.2015.04.031 B SEP 30 2015 762 1240.D Agostino,´ S Size and shape dependence of localized sur- 1251. Dan, H.K., Zhou, D., Wang, R., Jiao, Q., Yang, Z., Song, face plasmon resonances, (Book Chapter) 2013 Handbook Z., Yu, X., Qiu, J. E‚ects of gold nanoparticles on the en- of Molecular Plasmonics pp. 137-174 hancement of upconversion and near-infrared emission in Er3+/Yb3+ co-doped transparent glass-ceramics containing 1239. Tuersun, P. Simulated localized surface plasmon spectra of BaF2 nanocrystals, Ceramics International Volume 41, Issue single gold and silver nanobars, 2016 Optik 127 (6), pp. 2, 1 March 2015, Pages 2648-2653 3466-3470 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 132

1238. Yao, H. Monolayer-protected metal nanoclusters with chira- 1228. Monti, A., Alu, A., Toscano, A., Bilotti, F. Optical metasur- lity: Synthesis, size fractionation, optical activity and asym- faces based on plasmonic nanoparticles for anti-reƒection metric transformation, 2015 Handbook of Nanoparticles pp. coatings and transparent absorbers, 2017 11th International 191-216 Congress on Engineered Material Platforms for Novel Wa- ve Phenomena, Metamaterials 2017, art. no. 8107895, pp. 1237. Song, D., Wang, Y., Jing, D., Geng, J. Investigation and pre- 214-216. diction of optical properties of alumina nanoƒuids with dif- ferent aggregation properties, 2016 International Journal of 1227. Soltani, I., Hraiech, S., Horchani-Naifer, K., Ferid, M. Heat and Mass Transfer 96, pp. 430-437 E‚ects of silver nanoparticles on the enhancement of up conversion and infrared emission in Er3+/Yb3+co-doped 1236. Monti, A; Toscano, A; Bilotti, F Exploiting the surface disper- phosphate glasses, Optical Materials, 77, pp. 161-169 (2018). sion of nanoparticles to design optical-resistive sheets and Salisbury absorbers, OPTICS LETTERS, 41 (14):3383-3386; ART´ICULO (citas 93): 10.1364/OL.41.003383 JUL 15 2016 Controlled Anisotropic Deformation of Ag Nanoparticles 1235. Ghanashyam Krishna, M., Kumar, P. Non-lithographic tech- by Si Ion Irradiation, A. Oliver, J. A. Reyes-Esqueda, J. C. niques for nanostructuring of thin €lms and bulk surfaces Cheang-Wong, C. E. Roman-Vel´ azquez,´ A. Crespo-Sosa, L. (Book Chapter) 2014 SEmerging Nanotechnologies for Ma- Rodr´ıguez-Fernandez,´ J. A. Seman, Cecilia Noguez, Phys nufacturing pp. 86-124 Rev B 74, 245425 (2006) 1234. Ameer, FS; Varahagiri, S; Benza, DW; Willett, DR; Wen, YM; Wang, FL; Chumanov, G; Anker, JN Tuning Localized Surfa- TIPO A (66): ce Plasmon Resonance Wavelengths of Silver Nanoparticles 1226. B N. Khlebtsov, A Melnikov, N G. Khlebtsov, On the extinction by Mechanical Deformation, 2016 Journal of Physical Che- multipole plasmons in gold nanorods, Journal of Quantita- mistry C 120 (37), pp. 20886-20895 tive Spectroscopy and Radiative Transfer 107, 306 (2007) 1233. Violi, I.L., Gargiulo, J., Von Bilderling, C., Cortes, E., Stefani, 1225. Khlebtsov, B. N.; Khlebtsov, N. G, Multipole Plasmons in Me- F.D. Light-Induced Polarization-Directed Growth of Optically tal Nanorods: Scaling Properties and Dependence on Parti- Printed Gold Nanoparticles, 2016 Nano Letters 16 (10), pp. cle Size, Shape, Orientation, and Dielectric Environment, J. 6529-6533 Phys. Chem. C (2007) 111, 11516 1232. Thakur, P., Tan, B., Venkatakrishnan, K. Plasmon hybridisa- 1224. F Ren, G X Cai, X H Xiao, L X Fan, C Liu, D J Fu, J B Wang, tion of self-assembled 3d multiphase nano-titanium oxide C Z Jiang, Ion irradiation induced hollow and sandwiched towards broadband photon absorption, 2017 Solar Energy nanoparticles, J. Appl. Phys. 103, 084308 (2008) Materials and Solar Cells 164, pp. 165-174 1223. R. Giulian, P. Kluth, D.J. Sprouster, L.L. Araujo, A. Byrne and 1231. Madhavi, V., Kondaiah, P., G., M.R. Inƒuence of silver na- M.C. Ridgway, Swi† heavy ion irradiation of Pt nanocrys- noparticles on titanium oxide and nitrogen doped titanium tals embedded in SiO2, Nuclear Instruments and Methods oxide thin €lms for sun light photocatalysis , 2018 Applied in Physics Research Section B: Beam Interactions with Ma- Surface Science 436, pp. 708-719 terials and Atoms 266, 3158 (2008)

1230. Gupta, RK; Kumar, V; Gundampati, RK; Malviya, M; Hasan, 1222. Hasegawa, T.; Itoh, Y.; Kasuya, A. Development of UV-Visible SH; Jagannadham, MV Biosynthesis of silver nanoparti- Multiple-Angle Incidence Resolution Spectrometry and Ap- cles from the novel strain of Streptomyces Sp. BHUMBU-80 plication Study of Anisotropic Surface Plasmon Excitation with highly ecient electroanalytical detection of hydro- in a Silver Thin Film on a Glass Substrate, Anal. Chem. 80 gen peroxide and antibacterial activity, JOURNAL OF EN- 5630 (2008) VIRONMENTAL CHEMICAL ENGINEERING, 5 (6):5624-5635; 1221. Mohapatra, S., Mishra, Y.K., Ghatak, J., Kabiraj, D., Avasthi, 10.1016/j.jece.2017.09.029 DEC 2017 D.K. Surface plasmon resonance of Ag nanoparticles em- bedded in partially oxidized amorphous Si matrix, Journal 1229. Kumar, KN; Kostrzewa, M; Ingram, A; Suresh, B; Reddy, of Nanoscience and Nanotechnology 8, 4285 (2008). ASS; Gandhi, Y; Piasecki, M; Veeraiah, N Dielectric featu- res, relaxation dynamics and a.c. conductivity studies on 1220. JEAN-MICHEL LAMARRE DE?PARTEMENT DE GENIE PHYSIQUE, Ag+ mixed lead arsenate glass ceramics, JOURNAL OF MA- ECOLE POLYTECHNIQUE DE MONTREAL INSTITUT FRESNEL, TERIALS SCIENCE-MATERIALS IN ELECTRONICS, 29 (2):1153- CNRS UMR 6133, PROPRIETES OPTIQUES LINEAIRES ET NON- 1172; 10.1007/s10854-017-8018-8 JAN 2018 LINEAIRES DE NANOCOMPOSITES ME?TAL/DIELECTRIQUE 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 133

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1160. Crespo-Sosa, A., Schaaf, P., Reyes-Esqueda, J.A., Seman- Oliver, A High stability of the crystalline con€guration of Harutinian, J.A., Oliver, A., Excimer laser absorption by me- Au nanoparticles embedded in silica under ion and elec- tallic nano-particles embedded in silica, Journal of Physics tron irradiation, JOURNAL OF NANOPARTICLE RESEARCH 12 D: Applied Physics, 40 (7), art. no. 008, pp. 1890-1895 (5): 1787-1795 JUN 2010 (2007) 1151. R C Fernandez-Hernandez , R Gleason-Villagran , C Torres- 1159. V. Rodriguez-Iglesias, H.G. Silva-Pereyra, J.C. Cheang-Wong, Torres , J C Cheang-Wong , A Crespo-Sosa , L Rodriguez- J.A. Reyes-Esqueda, L. Rodriguez-Fernandez, A. Crespo- Fernandez , A Lopez-Suarez´ , R Rangel-Rojo , A Oliver and J Sosa, G. Kellerman and A. Oliver, MeV Si ion irradiation ef- A Reyes-Esqueda, Nonlinear optical spectroscopy of isotro- fects on the optical absorption properties of metallic nano- pic and anisotropic metallic nanocomposites, 2011 J. 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V. Rodriguez-Iglesias, O. Pena-Rodrguez, H. G. Silva-Pereyra, CONGRESS OF THE INTERNATIONAL COMMISSION FOR OP- L. Rodrguez-Fernndez, G. Kellermann, J. C. Cheang-Wong, A. TICS: LIGHT FOR THE DEVELOPMENT OF THE WORLD, 8011 Crespo-Sosa and A. Oliver, Elongated Gold Nanoparticles 10.1117/12.901992 2011 Obtained by Ion Implantation in Silica: Characterization and 1145. Mota-Santiago, P.-E., Crespo-Sosa, A., Jimenez-Hernandez, T-Matrix Simulations, J. Phys. Chem. C 114, 746 (2010). J.-L., Silva-Pereyra, H.-G., Reyes-Esqueda, J.-A., Oliver, A. Si- 1153. Rodriguez-Iglesias, V.; Pena-Rodriguez, O.; Silva-Pereyra, H. ze characterisation of noble-metal nano-crystals formed in G.; Rodriguez-Fernandez, L.; Cheang-Wong, J. C.; Crespo- sapphire by ion irradiation and subsequent thermal annea- Sosa, A.; Reyes-Esqueda, J. A.; Oliver, A. Tuning the aspect ling, 2012, Applied Surface Science 259 , pp. 574-581 ratio of silver nanospheroids embedded in silica, OPTICS 1144. Fernandez-Hernandez, RC; Gleason-Villagran, R; Torres- LETTERS 35, 703 (2010) Torres, C; Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang- 1152. Silva-Pereyra, HG; Arenas-Alatorre, J; Rodriguez-Fernandez, Wong, JC; Lopez-Suarez, A; Rangel-Rojo, R; Oliver, A; L; Crespo-Sosa, A; Cheang-Wong, JC; Reyes-Esqueda, JA; Reyes-Esqueda, JA On the physical contributions to the 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 137

third-order nonlinear optical response in plasmonic na- 1134. Crespo-Sosa, A., Mota-Santiago, P.E., Jimenez-Hernandez, nocomposites, JOURNAL OF OPTICS, 14 (12):10.1088/2040- J.L., (...), Reyes-Esqueda, J.A., Oliver, A. Metallic nano 8978/14/12/125203 DEC 2012 particles embedded in sapphire, 2015 Materials Research Society Symposium Proceedings 1769, pp. 1-10 1143. Tamayo-Rivera, L., Rodriguez-Fernandez, L., Rangel-Rojo, R., Oliver, A., Reyes-Esqueda, J.A. Nonlinear optical study of ART´ICULO (citas 82): Ag nanoparticles-Si quantum dots plasmonic nanostructu- red system, 2012, 2012 Conference on Lasers and Electro- Circular dichroism simulated spectra of chiral gold Optics, CLEO 2012 , art. no. 6326678 nanoclusters: A dipole approximation, C. Roman-Vel´ azquez,´ Cecilia Noguez, and I.L. Garzon,´ J Phys Chem B (Letter) 1142. Bornacelli, J., Reyes Esqueda, J.A., Rodriguez Fernandez, L., 107, 12035 (2003) Oliver, A. Improving passivation process of Si nanocrystals embedded in SiO Using Metal Ion Implantation, 2013, Jour- TIPO A (80): nal of Nanotechnology 2013 , art. no. 736478 1133. Negishi, Y.; Takasugi, Y.; Sato, S.; Yao, H.; Kimura, K.; Tsu- 1141. Licea-Rodriguez, J., Rocha-Mendoza, I., Rangel-Rojo, R., kuda, T.; Magic-Numbered Aun Clusters Protected by Glu- Rodriguez-Fernandez, L., Oliver, A. Femtosecond laser wri- tathione Monolayers (n = 18, 21, 25, 28, 32, 39): Isolation ting over silver nanoparticles system embedded in silica and Spectroscopic Characterization, J. Am. Chem. Soc. 126, using nonlinear microscopy, 2014, Optical Materials 36 (3) 6518 (2004) , pp. 682-686 1132. Katsuyuki Nobusada, Electronic Structure and Photochemi- 1140. Tamayo-Rivera, L., Rodriguez-Fernandez, L., Rangel-Rojo, R., cal Properties of a Monolayer-Protected Gold Cluster, J. Oliver, A., Reyes-Esqueda, J.A. Nonlinear optical study of Phys. Chem. B, 108 11904 (2004) Ag nanoparticles-si quantum dots plasmonic nanostructu- 1131. Negishi, Y.; Nobusada, K.; Tsukuda, T., Glutathione-Protected red system, 2012, CLEO: Science and Innovations, CLEO-SI Gold Clusters Revisited: Bridging the Gap between Gold(I)- 2012 , pp. JW4A.52 Thiolate Complexes and Thiolate-Protected Gold Nanocrys- 1139. Can-Uc, B; Rangel-Rojo, R; Rodriguez-Fernandez, L; Oliver, tals , J. Am. Chem. Soc. 127, 5261 (2005) A Polarization selectable nonlinearities in elongated silver 1130. G. Barcaro, A. Fortunelli, The Interaction of Coinage Metal nanoparticles embedded in silica, OPTICAL MATERIALS EX- Clusters with the MgO(100) Surface, J. Chem. Theory and PRESS, 3 (12):2012-2021; 2013 Comput. 1, 972 (2005) 1138. Sanchez-Dena, O., Mota-Santiago, P., Tamayo-Rivera, L., 1129. Hiroshi Yao, Kanae Miki, Naoki Nishida, Akito Sasaki, and Crespo-Sosa, A., Oliver, A., Reyes-Esqueda, J.A. Size-and Keisaku Kimura, Large Optical Activity of Gold Nanocluster shape-dependent nonlinear optical response of au nano- Enantiomers Induced by a Pair of Optically Active Penicilla- particles embedded in sapphire, (2013) Optics InfoBase mines, J. Am. Chem. Soc. 127, 15536 (2005) Conference Papers. 1128. Goldsmith, MR; George, CB; Zuber, G; Naaman, R; Waldeck, 1137. Can-Uc, B., Rangel-Rojo, R., Rodriguez-Fernandez, L., Oliver, DH; Wipf, P; Beratan, DN, The chiroptical signature of achiral A. Non-thermal polarization selectable nonlinear response metal clusters induced by dissymmetric adsorbates, Phys of elongated ag nanoparticles embedded in SiO2 studied Chem Chem Phys 8, 63 (2006) by the Z-scan technique, (2013) Optics InfoBase Conference 1127. Yasushi Yanagimoto, Yuichi Negishi, Hisashi Fujihara, and Papers. Tatsuya Tsukuda, Chiroptical Activity of BINAP-Stabilized Un- decagold Clusters, J. Phys. Chem. B 110, 11611 (2006) 1136. Can-Uc, B., Rangel-Rojo, R., Marquez, H., Rodriguez- Fernandez, L., Oliver, A. Nanoparticle containing chan- 1126. Qi H, Hegmann T.; Formation of periodic stripe patterns in nel waveguides produced by a multi-energy masked ion- nematic liquid crystals doped with functionalized gold na- implantation process, 2015 Optics Express 23 (3), pp. 3176- noparticles, J of Materials Chemistry 16, 4197 (2006) 3185 1125. Iwasa, T.; Nobusada, K.; Theoretical Investigation of Optimi- 1135. Can-Uc, B; Rangel-Rojo, R; Pena-Ramirez, A; de Araujo, CB; zed Structures of Thiolated Gold Cluster [Au25(SCH3)18]+, J. Baltar, HTMCM; Crespo-Sosa, A; Garcia-Betancourt, ML; Oli- Phys. Chem. C 111, 45 (2007) ver, A Nonlinear optical response of platinum nanoparticles 1124. A. Eisfeld, R. Kniprath, and J. S. Briggs, Theory of the ab- and platinum ions embedded in sapphire, OPTICS EXPRESS, sorption and circular dichroism spectra of helical molecular 24 (9):9955-9965; 10.1364/OE.24.009955 MAY 2 2016 aggregates, J. Chem. Phys. 126, 104904 (2007) 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 138

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Nanoscopic monolayers and LSPR-dependent surface-enhanced Raman inspection of surfaces based on plasmonic resonances, Op- scattering of hollow gold nanosphere/graphene oxide hy- tics InfoBase Conference Papers 2009, Novel Techniques in brids, 2015 RSC Advances 5 (53), pp. 42653-42662 Microscopy, NTM 2009; Vancouver; Canada; 26 April 2009 922. Gorkunov, M.V., Sturman, B.I., Podivilov, E.V. Selective exci- through 30 April 2009; Code 104289 tation of plasmons superlocalized at sharp perturbations of 931. Vadlapudi, V., Kaladhar, D.S.V.G.K., Behara, M., Sujatha, B., metal nanoparticles, 2015 EPL 110 (5), 57004 Naidu, G.K. Synthesis of green metallic nanoparticles (NPs) 921. Bae, G.-T., Aikens, C.M. Time-Dependent Density Functio- and applications, Oriental Journal of Chemistry Volume 29, nal Theory Studies of Optical Properties of Au Nanopar- Issue 4, 2013, Pages 1589-1595 ticles: Octahedra, Truncated Octahedra, and Icosahedra, 930. Abid, M., Abid, M., Brasselet, S Double quantum light emis- 2015 Journal of Physical Chemistry C 119 (40), pp. 23127- sion from gold nanowires and interacting gold nanospheres, 23137 Proceedings of SPIE - The International Society for Optical 920.D Agostino,´ S Size and shape dependence of localized sur- Engineering Volume 8809, 2013, Article number 880913 face plasmon resonances, (Book Chapter) 2013 Handbook Plasmonics: Metallic Nanostructures and Their Optical Pro- of Molecular Plasmonics pp. 137-174 perties XI; San Diego, CA; United States; 25 August 2013 through 29 August 2013; Code 104978 919. Roopan, S.M., Devi Rajeswari, V., Kalpana, V.N., Elango, G. Biotechnology and pharmacological evaluation of Indian 929. 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913. Kamal, SSK; Vimala, J; Sahoo, PK; Ghosal, P; Durai, L Ef- On the origin of the optical activity displayed by chiral- fect of Ag+ ion Concentration on the Reaction Kinetics and ligand-protected metallic nanoclusters, A. Sanchez-Castillo, Shape of Nanoparticles Synthesised by Green Chemical Cecilia Noguez, Ignacio L. Garzon,´ J Am Chem Soc Approach, DEFENCE SCIENCE JOURNAL, 66 (4):368-373; SI (Communication) 132, 1504–1505 (2010) 10.14429/dsj.66.10210 JUL-AUG 2016 912. Kohnehpoushi, S., Eskandari, M., Nejand, B.A., Ahmadi, V. TIPO A (71): Numerical calculation of plasmonic €eld absorption enhan- 903. Qian, HF; Zhu, Y; Jin, RC Isolation of Ubiquitous Au-40(SR)(24) cement in CdSe-quantum dot sensitized ZnO nanorods by Clusters from the 8 kDa Gold Clusters, J. Am. Chem. Soc. 132 Ag nanoparticle periodic arrays, 2016 Optical Materials 62, (13): 4583 2010 pp. 90-94 902. Zhu, M., Qian, H., Jin, R. Thiolate-Protected 911. Dousti, MR; Amjad, RJ Plasmon Assisted Luminescence in Au24(SC2H4Ph)20 nanoclusters: Superatoms or not?, Rare Earth Doped Glasses, REVIEWS IN PLASMONICS 2015, Journal of Physical Chemistry Letters 1 (6), 1003 (2010) 2015 339-386; Book Series: Reviews in Plasmonics 910. Ha, J.W. Chemical interface damping of single gold nano- 901. Lopez-Acevedo, O; Tsunoyama, H; Tsukuda, T; Hakkinen, H; rods with low sensitivity to the medium dielectric constant, Aikens, CM Chirality and electronic structure of the thiolate- 2017 Chemical Physics Letters 676, pp. 65-69 protected Au38 nanocluster, J. Am. Chem. Soc. 132, 8210 (2010) 909. Jolhe, PD; Bhanvase, BA; Patil, VS; Sonawane, SH Green Route for Silver Nanoparticles Synthesis by Raphanus 900. J F. Parker, C A. Fields-Zinna, R W. Murray, The Story of Sativus Extract in a Continuous Flow Tubular Micro- a Monodisperse Gold Nanoparticle: Au25L18, Acc. Chem. reactor, INTERNATIONAL JOURNAL OF NANOSCIENCE, 16 Res., Articles ASAP (As Soon As Publishable) Publication Date (1):10.1142/S0219581X16500198 FEB 2017 (Web): July 2, 2010 (Article) DOI: 10.1021/ar100048c 908. Lee, H., Ro, G., Kim, J.M., Kim, Y. Discrete-dipole approxima- 899. N Cathcart, V Kitaev Silver Nanoclusters: Single-Stage Sca- tion for the optical properties with morphological changes leable Synthesis of Monodisperse Species and Their Chi- of silver nanoprism and nanosphere via galvanic reaction, rooptical Properties, J. Phys. Chem. C 114, 16010-16017 2010 (2017) Materials Letters, 209 pp. 138-141 898. Angel, L.A., Majors, L.T., Dharmaratne, A.C., Dass, A. Ion mo- 907. Delgado-Beleno, Y., Martinez-Nunez, C.E., Cortez-Valadez, bility mass spectrometry of Au25(SCH2CH 2Ph)18 nanoclus- M., Flores-Lopez, N.S., Flores-Acosta, M. Optical properties ters, (2010) ACS Nano, 4 (8) 4691-4700. of silver, silver sul€de and silver selenide nanoparticles and 897. Wu ZK, Chen J, Jin RC One-Pot Synthesis of Au-25(SG)(18) antibacterial applications, Materials Research Bulletin 99, 2-and 4-nm Gold Nanoparticles and Comparison of Their 2018, Pages 385-392 Size-Dependent Properties, Adv. Functional Materials 21, 906. Boken, J; Khurana, P; Thatai, S; Kumar, D; Prasad, S Plas- 177-183, JAN 7 2011 monic nanoparticles and their analytical applications: A review, APPLIED SPECTROSCOPY REVIEWS, 52 (9):774-820; 896. Autschbach, J., Nitsch-Velasquez, L., Rudolph, M. Time- 10.1080/05704928.2017.1312427 2017 dependent density functional response theory for electro- nic chiroptical properties of chiral molecules, (2011) Topics 905. Ramirez, EVG; Hernandez, SA; Martinez, D; Diaz, G; Esqueda, in Current Chemistry, 298 1-98. JA Third order nonlinear optics in Ag nanocubes: local and nonlocal optical responses as a function of excitation wa- 895. Xia, YH; Zhou, YL; Tang, ZY Chiral inorganic nanoparticles: velength and particle size, OPTICS EXPRESS, 25 (25):31064- origin, optical properties and bioapplications, Nanoscale 3 31076; 10.1364/OE.25.031064 DEC 11 2017 (4): 1374-1382 2011 TIPO B (1): 894. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJ Chiral 904. Romo-Herrera, JM; Gonzalez, AL; Guerrini, L; Castiello, Nematic Assemblies of Silver Nanoparticles in Mesoporous FR; Alonso-Nunez, G; Contreras, OE; Alvarez-Puebla, Silica Thin Films, J. Am. Chem. Soc. 133 (11): 3728-3731 MAR RA A study of the depth and size of concave cube Au 23 2011 nanoparticles as highly sensitive SERS probes, NANOSCALE, 893. Wu, D., Zhang, X.-D., Liu, P.-X., Zhang, L.-A., Fan, F.-Y., Guo, 8 (13):7326-7333; 10.1039/c6nr01155a 2016 M.-L. Gold nanostructure: Fabrication, surface modi€cation, targeting imaging, and enhanced radiotherapy, 2011 Cu- Art´ıculo (citas 74): rrent Nanoscience 7 (1), 110-118 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 148

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867. Tohgha, U., Deol, K.K., Porter, A.G., Bartko, S.G., Choi, J.K., 855. Barcaro, G; Sementa, L; Fortunelli, A; Stener, M Optical pro- Leonard, B.M., Varga, K., Kubelka, J., Muller, G., Balaz, M. perties of nanoalloys, PHYSICAL CHEMISTRY CHEMICAL PHY- Ligand induced circular dichroism and circularly polarized SICS, 17 (42):27952-27967; 1 2015 luminescence in cdse quantum dots, 2013, ACS Nano 7 (12), 854. Ma, LG; Huang, ZH; Duan, YY; Shen, XF; Che, SN Opti- 11094-11102 cally active chiral Ag nanowires, Science China-Materials, 866. Jin, R., Nobusada, K Doping and alloying in atomically pre- 58 (6):441-446; 10.1007/s40843-015-0058-x JUN 2015 cise gold nanoparticles, Nano Research Volume 7, Issue 3, March 2014, Pages 285-300 853. Pichugina, DA; Kuz’menko, NE; Shestakov, AF Ligand- protected gold clusters: the structure, synthesis and ap- 865. Negishi, Y. Toward the creation of functionalized metal na- plications, RUSSIAN CHEMICAL REVIEWS, 84 (11):1114-1144; noclusters and highly active photocatalytic materials using 10.1070/RCR4493 2015 thiolate-protected magic gold clusters, Bulletin of the Che- mical Society of Japan Volume 87, Issue 3, 2014, Pages 375- 852. Yao, H. Monolayer-protected metal nanoclusters with chira- 389 lity: Synthesis, size fractionation, optical activity and asym- metric transformation, 2015 Handbook of Nanoparticlespp. 864. Knoppe, S., Burgi, T. Chirality in thiolate-protected gold clus- 191-216 ters, Accounts of Chemical Research, Volume 47, Issue 4, 15 April 2014, Pages 1318-1326 851. Niihori, Y; Uchida, C; Kurashige, W; Negishi, Y High- resolution separation of thiolate-protected gold clusters by 863. Zhang, L., Wang, E. Metal nanoclusters: New ƒuorescent pro- reversed-phase high-performance liquid chromatography, bes for sensors and bioimaging, Nano Today Volume 9, Is- PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 18 (6):4251-4265; sue 1, February 2014, Pages 132-157 (2016) 862. Burgi, T. 8.34 Physical and Spectrometric Analysis: Nano- Detection of Chirality, Comprehensive Chirality Volume 8, 850. Choi, JK; Haynie, BE; Tohgha, U; Pap, L; Elliott, KW; Leonard, September 2012, Pages 657-675 BM; Dzyuba, SV; Varga, K; Kubelka, J; Balaz, M Chirality Inversion of CdSe and CdS Quantum Dots without Changing 861. Autschbach, J. Calculating Electronic Optical Activity of Coor- the Stereochemistry of the Capping Ligand, ACS NANO, 10 dination Compounds, Comprehensive Inorganic Chemistry II (3):3809-3815; 10.1021/acsnano.6b00567 MAR 2016 (Second Edition): From Elements to Applications Volume 9, August 2013, Pages 407-426, (Book Chapter) 849. Petty, JT; Sergev, OO; Ganguly, M; Rankine, IJ; Chevrier, DM; Zhang, P A Segregated, Partially Oxidized, and Compact 860. Nishigaki, J; Koyasu, K; Tsukuda, T Chemically Modi€ed Ag-10 Cluster within an Encapsulating DNA Host, JOURNAL Gold Superatoms and Superatomic Molecules, CHEMICAL OF THE AMERICAN CHEMICAL SOCIETY, 138 (10):3469-3477; RECORD, 14 (5):897-909; SI 10.1002/tcr.201402011 OCT 2014 10.1021/jacs.5b13124 MAR 16 2016 859. Negishi, Y Precisely Controlled Metal Nanoclusters, Edited 848. Yao, H; Iwatsu, M Water-Soluble Phosphine-Protected Au-11 by: Matsuo Y; Higuchi M; Negishi Y; Yoshizawa M; Uemu- Clusters: Synthesis, Electronic Structure, and Chiral Phase ra T; Takaya H; Ueno T; Takeuchi M; Yoshimoto S METAL- Transfer in a Synergistic Fashion, LANGMUIR, 32 (13):3284- MOLECULAR ASSEMBLY FOR FUNCTIONAL MATERIALS, 21-28; 3293; 10.1021/acs.langmuir.6b00539 APR 5 2016 10.1007/978-4-431-54370-1-3 2013 858. Liu, X., Hamilton, I.P. Helical gold nanorods as chiral recogni- 847. Gong, DJ; Gao, GB; Zhang, MX; Sun, TL Chiral Gold Nano- tion nanostructures: A relativistic density functional theory clusters Synthesis, Properties and Applications, PROGRESS study, Journal of the American Chemical Society Volume IN CHEMISTRY, 28 (2-3):296-307; 10.7536/PC150931 MAR 136, Issue 51, 24 December 2014, Pages 17757-17761 2016 857. Wu, X., Xu, L., Ma, W., Liu, L., Kuang, H. , Yan, W., Wang, L., 846. Long, TF; Guo, YJ; Lin, M; Yuan, MK; Liu, ZD; Huang, Xu, C. Gold core-DNA-silver shell nanoparticles with intense CZ Optically active red-emitting Cu nanoclusters origina- plasmonic chiroptical activities, Advanced Functional Mate- ting from complexation and redox reaction between cop- rials Volume 25, Issue 6, 11 February 2015, Pages 850-854 per(II) and D/L-penicillamine, NANOSCALE, 8 (18):9764- 9770; 10.1039/c6nr01492e 2016 856. Fernando, A; Dimuthu, KL; Weerawardene, M; Karimova, NV; Aikens, CM Quantum Mechanical Studies of Large Me- 845. Aikens, CM Optical Properties and Chirality, PROTECTED tal, Metal Oxide, and Metal Chalcogenide Nanoparticles METAL CLUSTERS: FROM FUNDAMENTALS TO APPLICATIONS, and Clusters, CHEMICAL REVIEWS, 115 (12):6112-6216; SI 9 223-261; 10.1016/B978-0-08-100086-1.00009-9 2015, 10.1021/cr500506r JUN 24 2015 Book Series: Frontiers of Nanoscience 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 150

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602. A. R. McGurn, A. R. Day, D. J. Bergman, L. C. Davis, and 589. Skelton, S.E., Sergides, M., Patel, R., Karczewska, E., Ma- M. F. Thorpe, Spectral densities of embedded interfaces in rago,´ O.M., Jones, P.H. Evanescent wave optical trapping composite materials, Phys Rev B 70, 144205 (2004) and transport of micro- and nanoparticles on tapered op- tical €bers, 2012, Journal of Quantitative Spectroscopy and 601. G. Xu, M. Tazawa, P. Jin and S. Nakao, Surface plasmon re- Radiative Transfer 113 (18) , pp. 2512-2520 sonance of sputtered Ag €lms: substrate and mass thickness dependence, Applied Physics A 80, 1535 (2005) 588. Lerme,´ J., Bonnet, C., Broyer, M., Cottancin, E., Manchon, D., Pellarin, M. Optical properties of a particle above a dielec- 600. V. Chegel, Yu. Chegel, M. Guiver, A. Lopatynskyi, O. Lo- tric interface: Cross sections, benchmark calculations, and patynska, V. Lozovski, 3D - quanti€cation of biomolecular analysis of the intrinsic substrate e‚ects, 2013 Journal of covers using surface plasmon-polariton resonance experi- Physical Chemistry C 117 (12) , pp. 6383-6398 ment Sensors and Actuators B: Chemical 134, 66 (2008) 587. Zhou, Y., Huang, A., Li, Y., Ji, S., Gao, Y., Jin, P. Surface plas- 599. Abeysinghe, DC; Chen, WB; Zhan, QW; Nelson, RE, Polymer mon resonance induced excellent solar control for VO2 at underlayer assisted dewetting of a top metal nano€lm, Na- SiO2 nanorods-based thermochromic foils, 2013, Nanoscale notechnology 20, 475301 (2009) 5 (19) , pp. 9208-9213 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 162

586. Chau, Y.-F. , Jheng, C.-Y. Buried E‚ects of Surface Plasmon 576. G. Cappellini, G. Satta. M. Palummo, G. Onida, Ab initio op- Resonance Modes for Periodic Metal-Dielectric Nanostruc- tical properties of BN(110) and GaN(110) surfaces, page 44, tures Consisting of Coupled Spherical Metal Nanoparticles in Epioptics-7: Proceedings of the 24th Course of the In- with Cylindrical Pore Filled with a Dielectric, Plasmonics 9, ternational School of Solid State Physics, Erice, Sicily, Italy February 2014, Pages 1-9 20-26 July 2002 (Science and Culture Series-Physics), Ed. 585. Lazzari, R., Jupille, J., Cavallotti, R., Simonsen, I. Model-free A. Cricenti, World Scienti€c Publishing Company (2004). unraveling of supported nanoparticles plasmon resonance 575. Velasco VR, Tutor J, Rodriguez-Coppola H, Electronic structu- modes, (2014) Journal of Physical Chemistry C, 118 (13) pp. re of (001) GaN/AlN quantum wells, Surf Sci 565, 259 (2004) 7032-7048. 574. P Weightman, D S Martin, R J Cole and T Farrell, Reƒection 584. Lazzari, R; Simonsen, I; Jupille, J Interfacial Susceptibi- anisotropy spectroscopy, Rep. Prog. Phys. 68 (2005) 1251 lities in Nanoplasmonics via Inversion of Fresnel Coef- 573. L. Ivanova, S. Borisova, H. Eisele, M. Dahne,¨ A. Laubsch, €cients, PLASMONICS, 9 (2):261-272; 10.1007/s11468-013- and Ph. Ebert, Surface states and origin of the Fermi level 9619-6 APR 2014 pinning on nonpolar GaN(1100) surfaces, Appl. Phys. Lett. 583. Sikdar, D., Rukhlenko, I.D., Cheng, W., Premaratne, M. Tuna- 93, 192110 (2008) ble Broadband Optical Responses of Substrate-Supported 572. Eisele, H; Borisova, S; Ivanova, L; Dahne, M; Eberta, P Cross- Metal/Dielectric/Metal Nanospheres, Plasmonics Volume 9, sectional scanning tunneling microscopy and spectroscopy Issue 3, June 2014, Pages 659-672 of nonpolar GaN(1(1)over-bar00) surfaces, JOURNAL OF VA- 582. Niklasson, GA; Lansaker, PC; Li, SY; Granqvist, CG Plas- CUUM SCIENCE & TECHNOLOGY B 28 (4): C5G11-C5G18 JUL monic thin €lms for application in improved chromogenic 2010 windows, INERA CONFERENCE 2015: LIGHT IN NANOSCIEN- 571. Hyun, JM; Kim, H, Magnetic Properties of Intrinsic Vacancies CE AND NANOTECHNOLOGY (LNN 2015), 682 10.1088/1742- on the GaN(10 (1)over-bar0) Surface: a Density-functional- 6596/682/1/012003 2016 Book Series: Journal of Physics theory Study, JOURNAL OF THE KOREAN PHYSICAL SOCIETY, Conference Series 68 (3):420-424; 10.3938/jkps.68.420 FEB 2016 581. Iati, MA; Lidorikis, E; Saija, R, Modeling of Enhanced Elec- 570. Bermudez, V.M. The fundamental surface science of tromagnetic Fields in Plasmonic Nanostructures, Edited by: wurtzite gallium nitride, 2017 Surface Science Reports Gucciardi PG; DeLaChapelle ML; LidgiGuigui N; HANDBOOK 72(4), pp. 147-315 OF ENHANCED SPECTROSCOPY, 101-139; 2016 TIPO B (1): Art´ıculo (citas 4): 580. C. E. Roman-Vel´ azquez,´ B. E. Sernelius, Numerical Multipolar plasma resonances in supported alkali-metal study of the e‚ect of structure and geometry on van nanoparticles, C. Beitia, Y. Borensztein, R. G. Barrera, C. E. der Waals forces, J. Phys. A: Math. Theor. 41. (2008) 164008 Roman,´ Cecilia Noguez, Physica B 279, 25 (2000)

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TIPO B (1): 556. Intravaia, F., Busch, K. Fluorescence in nonlocal dissipative periodic structures, 2015 Physical Review A - Atomic, Mole- 566. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring of cular, and Optical Physics 91 (5), 053836 the Plasmon Resonance of Gold Nanoparticles in Au/TiO2 Catalyst under Oxidative and Reducing Atmospheres,J TIPO B (1): Phys Chem C 114, 9008 (2010) 555. Villarreal, C., Mochan,´ W.L., The Casimir e‚ect , AIP Conference Proceedings 857B, 235 (2006) Art´ıculo (citas 2): Optical properties of the cleavage InAs(110) surface, X. Art´ıculo (citas 25): Lopez-Lozano,´ Cecilia Noguez, L. Meza-Montes, Physica High-multipolar e‚ects on the Casimir force: the non- Status Solidi (c) 0, 2992 (2003) retarded limit, Cecilia Noguez, C. E. Roman-Vel´ azquez,´ R. Esquivel-Sirvent y C. Villarreal. Europhys Lett 67, 191 (2004) TIPO A (2):

565.R.A.V azquez-Nava,´ Bernardo S. Mendoza, and C. Castillo, TIPO A (19): Spin-orbit e‚ects on reƒectance anisotropy spectroscopy Phys Rev B 70, 165306 (2004) 554. Milton, Kimball A. J. Phys A37, R209 (2004) 564. Tomaszewska, N., Walczak, L., Lis, J., Kolodziej, J.J. Surface 553. V.V. Klimov, A. Lambrecht, Plasmonic nature of van der states and charge accumulation states on reconstructed Waals forces between nanoparticles, Plasmonics 4, 31 InAs(001) surfaces, Surface Science Volume 632, February (2009) 2015, Pages 103-110 552. U. Hakanson,˚ M. Agio, S. Kuhn,¨ L. Rogobete, T. Kalkbren- ner, V. Sandoghdar, Coupling of plasmonic nanoparticles to Art´ıculo (citas 9): their environments in the context of van der Waals-Casimir Spectral Representation of the Casimir Force Between a interactions, Phys. Rev. B 77, 155408 (2008) Sphere and a Substrate, C. Roman-Vel´ azquez,´ Cecilia Noguez, C. Villarreal, R. Esquivel-Sirvent. Phys Rev A 69, 551. K. A. Milton, Recent Developments in the Casimir E‚ect, J. 042109 (2004) Phys.: Conf. Ser. 161, 012001 (2009) 550. Canaguier-Durand, A; Neto, PAM; Cavero-Pelaez, I; Lam- TIPO A (8): brecht, A; Reynaud, S., Casimir Interaction between Pla- 563. Milton, Kimball A. J. Phys A37, R209 (2004). ne and Spherical Metallic Surfaces, Phys. Rev. Lett. 102, 230404 (2009) 562.J.B arcenas,´ L. Reyes, and R. Esquivel-Sirvent, Acoustic Casi- mir pressure for arbitrary media, J of the Acoustical Society 549. Garcia-Serrano, R; Martinez, G; Hernandez, PH; Palomino- of America 116, 717 (2004) Ovando, M; Cocoletzi, GH Casimir force between two para- llel semiconductor slabs: Magnetic €eld e‚ects in the Voigt 561. K. A. Milton, Recent Developments in the Casimir E‚ect, J. geometry, Physica Status Solidi b 246, 1357 (2009) Phys.: Conf. Ser. 161, 012001 (2009) 548. Sernelius, B.E., Casimir experiments showing saturation ef- 560. A. Lambrecht and I. G. Pirozhenko, Casimir force between fects, Physical Review A 80, 043828 (2009) dissimilar mirrors and the role of the surface plasmons, Phys. Rev. A 78, 062102 (2008) 547. Yannopapas, V., Vitanov, N.V. Casimir-Polder interaction bet- 559. V.V. Klimov, A. Lambrecht, Plasmonic nature of van der ween an atom and a periodic nanostructure, Physical Re- Waals forces between nanoparticles, Plasmonics 4, 31 view A 81, art. no. 042506 (2010) (2009) 546. A Lambrecht, A Canaguier-Durand, R Guerout, S Reynaud 558. Markel, VA, Pole expansion of the Lorenz-Mie coecients, textitCasimir e‚ect in the scattering approach: correlations JOURNAL OF NANOPHOTONICS 4: Art. No. 041555 FEB 4 2010 between material properties, temperature and geometry, Lecture Notes in Physics 834, pp. 97-127 2011 557. Milton KA, Recent Developments in the Casimir E‚ect, In- ternational Workshop on 60 Years of the Casimir E‚ect, JUN 545. A Canaguier-Durand, P A. Maia Neto, A Lambrecht, S Rey- 23-27, 2008 Brasilia, BRAZIL, Source: 60 YEARS OF THE CA- naud Thermal Casimir e‚ect for Drude metals in the plane- SIMIR EFFECT Book Series: Journal of Physics Conference sphere geometry, PHYSICAL REVIEW A 82 (1): Art. No. 012511 Series Volume: 161 Pages: - Published: 2009 JUL 29 2010 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 164

544. Fitzgerald, TM; Marciniak, MA; Nauyoks, SE Development 532. Bo E. Sernelius and C. E. Roman-Vel´ azquez,´ Beyond the sim- of a tunable polarimetric scatterometry system in the ple proximity force approximation: Geometrical e‚ects on MWIR and LWIR, REFLECTION, SCATTERING, AND DIFFRAC- the nonretarded Casimir interaction, Phys. Rev. A 78, 032111 TION FROM SURFACES II 7792: Art. No. 779209 2010 (2008)

543. Milton KA, Recent Developments in the Casimir E‚ect, In- 531. Bo E Sernelius and C E Roman-Vel´ azquez´ Test of the Pro- ternational Workshop on 60 Years of the Casimir E‚ect, JUN ximity Force Approximation J. Phys.: Conf. Ser. 161, 012016 23-27, 2008 Brasilia, BRAZIL, Source: 60 YEARS OF THE CA- (2009) SIMIR EFFECT Book Series: Journal of Physics Conference Series Volume: 161 Pages: - Published: 2009 530. Sernelius BE, Roman-Velazquez CE Test of the Proximity Force Approximation, International Workshop on 60 Years 542. T M. Fitzgerald, M A. Marciniak Full Optical Scatter Analysis of the Casimir E‚ect, JUN 23-27, 2008 Brasilia, BRAZIL, for Novel Photonic and Infrared Metamaterials, Conferen- Source: 60 YEARS OF THE CASIMIR EFFECT Book Series: ce Proceedings of the Society for Experimental Mechanics Journal of Physics Conference Series Volume: 161 Pages: - Series, 1, Volume 2, MEMS and Nanotechnology, Volume 2, Published: 2009 Pages 97-105

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521. Blaber, MG; Arnold, MD; Ford, MJ A review of the optical pro- 511. R. A. Vazquez-Nava, B. S. Mendoza, N. Arzate, Spin-orbit perties of alloys and intermetallics for plasmonics, JOURNAL e‚ects on the optical anisotropy of semiconductor surfaces, OF PHYSICS-CONDENSED MATTER 22 (14): Art. No. 143201 physica status solidi (b) 242 3022 (2005) APR 14 2010 510. Han, D., Bang, J., Xie, W., Meunier, V., Zhang, S. Phonon- 520. Wang, XF; Chen, KP; Zhao, M; Nolte, DD Refractive index and Enabled Carrier Transport of Localized States at Non-Polar dielectric constant evolution of ultra-thin gold from clus- Semiconductor Surfaces: A First-Principles-Based Prediction, ters to €lms, OPTICS EXPRESS 18 (24): 24859-24867 NOV 2016 J Phys Chem Lett 7 (18), pp. 3548-3553 22 2010 TIPO B (4): 519. K. Kolwas, A. Derkachova, Damping rates of surface plas- 509. K Fleischer, G Bussetti, C Goletti, W Richter and P Chiaradia, mons for particles of size from nano- to micrometers; re- Optical anisotropy of Cs nanostructures on III–V(110) surfa- duction of the nonradiative decay, Journal of Quantitative ces, J. Phys.: Condens. Matter 16 (2004) S4353 Spectroscopy and Radiative Transfer 114 , pp. 45-55 (2013) 508. O. Pulci, M. Marsili, E. Luppi, C. Hogan, V. Garbuio, F. Sottile, 518. Kaltenborn, S; Schneider, HC Plasmon dispersions in simple R. Magri, R. Del Sole, Electronic excitations in solids: Density metals and Heusler compounds, PHYSICAL REVIEW B, 88 functional and Green’s function theory, physica status solidi (4):10.1103/PhysRevB.88.045124 JUL 22 2013 (b), 242, 2737 (2005) 517. Esquivel-Sirvent, R; Escobar, JV Casimir force between li- quid metals, EPL, 107 (4):10.1209/0295-5075/107/40004 507. O. Pulci, M. Palummo, M. Marsili, R. Del Sole, Theory of Sur- AUG 2014 face Optical Properties, page 161 in Advances in Solid State Physics, Vol. 45 (Advances in Solid State Physics) (Advances 516. Milton, K.A., Guerout, R., Ingold, G.-L., Lambrecht, A., Rey- in Solid State Physics) Bernhard Kramer Springer; 1 edition naud, S. Negative Casimir entropies in nanoparticle inter- (November 28, 2005). actions, 2015 Journal of Physics Condensed Matter 27 (21), 214003 506. Hogan, C., Magri, R., Del Sole, R. Optical properties of GaSb(001)-c(2x6): The role of surface antisite defects, 515. Venkataram, PS; Whitton, JD; Rodriguez, AW Nonadditivity of (2010) Physica Status Solidi (B) Basic Research, 247 (8) pp. van der Waals forces on liquid surfaces, PHYSICAL REVIEW 1960-1964. E, 94 (3):10.1103/PhysRevE.94.030801 SEP 22 2016

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501. Lipowska, B., Klonkowski, A.M., Energy transfer and surfa- 490. Matthias Meyer, Mechanisms in Surface Enhanced Raman ce plasmon resonance in luminescent materials based on Scattering, A thesis submitted to the Victoria University of Tb(III) and Ag or Au nanoparticles in silica xerogel, Journal Wellington in full€lment of the requirements for the degree of Non-Crystalline Solids 354, 4383 (2008) of Doctor of Philosophy in Physics, Victoria University of Wellington The MacDiarmid Institute for Advanced Materials 500. C Zheng, Y Du, M Feng, H Zhan, Shape dependence of non- and Nanotechnology 2009 linear optical behaviors of nanostructured silver and their silica gel glass composites, Appl. Phys. Lett. 93, 143108 489. Chen, J., Jin, Y., E‚ect of water volume on the growth of silver (2008) nanoparticles promoted by ultraviolet, Advanced Materials Research 96, 55 (2010) 499. J Hua, M Shao, L Cheng, X Wang, Y Fu, DDD Ma, The fabrica- tion of silver modi€ed silicon nanowires and their excellent 488. Amendola, V; Bakr, OM; Stellacci, F A Study of the Surface catalysis in the decomposition of ƒuorescein sodium, Jour- Plasmon Resonance of Silver Nanoparticles by the Discrete nal of Physics and Chemistry of Solids 70, 192 (2009) Dipole Approximation Method: E‚ect of Shape, Size, Struc- ture, and Assembly, PLASMONICS 5 (1): 85 (2010) 498. Albella, P., Moreno, F., Saiz, J.M., Gonzalez,´ F. Surface ins- pection by monitoring spectral shi†s of localized plasmon 487. Sau, T.K., Rogach, A.L., Jackel, F., Klar, T.A., Feldmann, J. resonances, Optics Express 16, 12872 (2008) Properties and applications of colloidal nonspherical noble metal nanoparticles, 2010 Advanced Materials 22 (16), pp. 497. Reyes-Esqueda, J.A., Salvador, A.B., Zanella, R., Size con- 1805-1825 trol of Au nanoparticles on TiO2 and Al 2O3 by DP Urea: Optical absorption and electron microscopy as control pro- 486. Calandra, P., Ruggirello, A., Pistone, A., Liveri, V.T. Structural bes, Journal of Nanoscience and Nanotechnology 8, 3843 and Optical Properties of Novel Surfactant Coated TiO2-Ag (2008) Based Nanoparticles, (2010) Journal of Cluster Science, 21 496. Absorbance: Webster’s Timeline History, 1954 - 2007 Edited (4) pp. 767-778. by PM Parker, Icon Group International, Inc (2009) (Referen- 485. Yang, P., Portales, H., Pilenia, M.-P. Dependence of the loca- ce book) lized surface plasmon resonance of noble metal quasisp- 495. Song, QW; Hu, JY; Xing, JW; Yuen, M; Yao, BG; Li, Y, Evalua- herical nanoparticles on their crystallinity-related morpho- tion of IR Radiation Performances of Composite MicroPCMs logies, (2011) Journal of Chemical Physics, 134 (2), art. no. Incorporated with Silver Nano Particles, Textile Bioengi- 024507 neering and informatics symposium proceedings 1, 2, 178 484. Ghosh, D; Sarkar, D; Girigoswami, A; Chattopadhyay, N, A (2008) Fully Standardized Method of Synthesis of Gold Nanoparti- 494. Amendola V, Meneghetti M, Size Evaluation of Gold Nano- cles of Desired Dimension in the Range 15 nm-60 nm, JOUR- particles by UV-vis Spectroscopy, J. Phys. Chem. C 113, 4277 NAL OF NANOSCIENCE AND NANOTECHNOLOGY 11 (2): 1141- (2009) 1146 FEB 2011

493. Han, CP; Zhang, L; Li, HB, Highly selective and sensitive 483. Dakhel, A.A., Henari, F.Z. Optical and structural properties of colorimetric probes for Yb3+ ions based on supramole- silver nanoparticles embedded in indium oxide €lms, 2011 cular aggregates assembled from beta-cyclodextrin-4,4 ’- International Journal of Nanoscience 10 (3), pp. 433-440 dipyridine inclusion complex modi€ed silver nanoparticles, 482. Mota-Santiago, PE; Crespo-Sosa, A; Jimenez-Hernandez, Chem Comm 24, 3545 (2009) JL; Sanchez-Dena, O; Fernandez-Hernandez, RC; Reyes- 492. Reyes-Esqueda, JA; Rodriguez-Iglesias, V; Silva-Pereyra, HG; Esqueda, JA; Oliver, A Linear and non-linear optical pro- Torres-Torres, C; Santiago-Ramirez, AL; Cheang-Wong, JC; perties of metallic nanocrystals in sapphire, 22ND CON- Crespo-Sosa, A; Rodriguez-Fernandez, L; Lopez-Suarez, A; GRESS OF THE INTERNATIONAL COMMISSION FOR OP- Oliver, A, Anisotropic linear and nonlinear optical properties TICS: LIGHT FOR THE DEVELOPMENT OF THE WORLD, 8011 from anisotropy-controlled metallic nanocomposites, Optics 10.1117/12.903344 2011 Express 17, 12849 (2009) 481. Provorse, M.R., Aikens, C.M. Binding of carboxylates to gold 491. Jensen, LL; Jensen, L, Anisotropic linear and nonlinear op- nanoparticles: A theoretical study of the adsorption of for- tical properties from anisotropy-controlled metallic nano- mate on Au 20, (2012) Computational and Theoretical Che- composites, J. Phys. Chem. C 113, 15182 (2009) mistry, 987 pp. 16-21. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 167

480. Bae, G.-T., Aikens, C.M. Time-dependent density functional 469. Bettini, S., Pagano, R., Valli, L., Giancane, G. Drastic nickel theory studies of optical properties of Ag nanoparticles: Oc- ion removal from aqueous solution by curcumin-capped Ag tahedra, truncated octahedra, and icosahedra, 2012 Journal nanoparticles, Nanoscale Volume 6, Issue 17, 7 September of Physical Chemistry C 116 (18) , pp. 10356-10367 2014, Pages 10113-10117 479. Guidez, E.B., Aikens, C.M. Theoretical analysis of the opti- 468. Guidez, E.B., Aikens, C.M. Quantum mechanical origin of the cal excitation spectra of silver and gold nanowires, 2012, plasmon: From molecular systems to nanoparticles, Nanos- Nanoscale 4 (14) , pp. 4190-4198 cale Volume 6, Issue 20, 21 October 2014, Pages 11512-11527 478. Bae, G.-T., Aikens, C.M. TDDFT and CIS studies of optical 467. 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72. Billing, BK; Agnihotri, PK; Singh, N Fabrication of branched Art´ıculo (citas 7): nanostructures for CNT at Ag nano-hybrids: application in CO2 gas detection, JOURNAL OF MATERIALS CHEMISTRY C, 5 Metallic inƒuence on the atomic structure and optical (17):4226-4235; 10.1039/c7tc00984d MAY 7 2017 activity of ligand-protected nanoparticles: a comparison between Ag and Au, Francisco Hidalgo; Cecilia Noguez; M. 71. Delgado-Beleno, Y., Martinez-Nunez, C.E., Cortez-Valadez, Olvera de la Cruz, Nanoscale 6 (6), 3325 - 3334 (2014) M., Flores-Lopez, N.S., Flores-Acosta, M. Optical properties of silver, silver sul€de and silver selenide nanoparticles and antibacterial applications, Materials Research Bulletin 99, TIPO A (7): 2018, Pages 385-392 61. Fernando, A; Dimuthu, KL; Weerawardene, M; Karimova, 70. Ghosh, S; Boris, DR; Hernandez, SC; Zorman, CA; Walton, SG; NV; Aikens, CM Quantum Mechanical Studies of Large Me- Sankaran, RM Correlating charge ƒuence with nanoparticle tal, Metal Oxide, and Metal Chalcogenide Nanoparticles formation during in situ plasma synthesis of nanocomposite and Clusters, CHEMICAL REVIEWS, 115 (12):6112-6216; SI €lms, 2017 Plasma Processes and Polymers 14(12),1700079 10.1021/cr500506r JUN 24 2015

69. Lan, Y.-J., Chang, S.-J., Li, C.-C. Synthesis of conductive mi- 60. Pelayo, J.J., Whetten, R.L., Garzon,´ I.L. Geometric Quanti€- crocapsules for fabricating restorable circuits, 2017 Journal cation of Chirality in Ligand-Protected Metal Clusters, 2015 of Materials Chemistry A 5(48), pp. 25583-25593 Journal of Physical Chemistry C 119 (51), pp. 28666-28678 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 188

59. Yao, H., Kobayashi, R., Nonoguchi, Y. Enhanced Chiroptical 49. Mlambo, M., Hlatshwayo, T.T., Moloto, N., Mdluli, P.S. Activity in Glutathione-Protected Bimetallic (AuAg)18 Nano- Computational and experimental evaluation of selective clusters with Almost Intact Core-Shell Con€guration, 2016 substitution of thiolated coumarin derivatives on gold na- Journal of Physical Chemistry C 120 (2), pp. 1284-1292 noparticles: Surface enhancing Raman scattering and elec- trochemical studies, 2017 Applied Surface Science 396, pp. 58. Ranasingha, O; Wang, H; Zobac, V; Jelinek, P; Panapi- 695-704 tiya, G; Neukirch, AJ; Prezhdo, OV; Lewis, JP Slow Re- laxation of Surface Plasmon Excitations in Au-55: The 48. Rodriguez-Kessler, P.L., Pan, S., Florez, E., Cabellos, J.L., Key to Ecient Plasmonic Heating in Au/TiO2, JOUR- Merino, G. Structural Evolution of the Rhodium-Doped NAL OF PHYSICAL CHEMISTRY LETTERS, 7 (8):1563-1569; Silver Clusters AgnRh (n ? 15) and Their Reactivity toward 10.1021/acs.jpclett.6b00283 APR 21 2016 NO, (2017) Journal of Physical Chemistry C, 121 (35) pp. 57. J. Govan and Y. K. Gun’ko, Recent progress in chiral inorga- 19420-19427. nic nanostructures, in Nanoscience: Volume 3, 2016, 3, pp. 1-30 Art´ıculo (citas 22): 56. Ranasingha, O., Wang, H., Zobac, V., (...), Prezhdo, O.V., Le- Chiral Atomically Thin Films, Cheol-Joo Kim, A. Sanchez-´ wis, J.P. Slow Relaxation of Surface Plasmon Excitations in Castillo, Zack Ziegler, Yui Ogawa, Cecilia Noguez, and Au55: The Key to Ecient Plasmonic Heating in Au/TiO2, Jiwoong Park, Nature Nanotechnology11, 520–524 (2016) 2016 Journal of Physical Chemistry Letters 7 (8) 1563 55. Guedes-Sobrinho, D., Chaves, A.S., Piotrowski, M.J., Da TIPO A (21): Silva, J.L.F. Density functional investigation of the adsor- 47. T Chari, R Ribeiro-Palau, CR Dean, KL Shepard, Resistivity of ption e‚ects of PH3 and SH2 on the structure stability of rotated graphite-graphene contacts, Nano Lett., 2016 (Com- the Au55 and Pt55 nanoclusters, 2017 Journal of Chemical munication) 16, Issue 7, 13 July 2016, Pages 4477-4482 Physics 146(16),164304 46. Z Tan, J Yin, C Chen, H Wang, L Lin, L Sun, J Wu, X Sun, H Art´ıculo (citas 7): Yang, Y Chen, H Peng, and Z Liu, Building Large-Domain Adsorption of a Methylthio Radical on Silver Nanoparticles: Twisted Bilayer Graphene with van Hove Singularity, ACS Size Dependence, David Becerril; Cecilia Noguez; J Phys Nano, 2016 10 (7), pp. 6725-6730 Chem C 119 (20), pp 10824–10835 (2015) 45. Nguyen, V.L., Perello, D.J., Lee, S., (...), Jeong, S.-Y., Lee, Y.H. TIPO A (7): Wafer-Scale Single-Crystalline AB-Stacked Bilayer Graphe- 54. Harris, R. A.; Mlambo, M.; Mdluli, P. S. Qualitative analysis ne, 2016 pp. 8177-8183 of some alkanethiols on Au nanoparticles during SERS, RSC 44. Koo, E., Kim, S., Ju, S.-Y. Relationships between the optical ADVANCES Volume: 6 Issue: 15 Pages: 12131-12142 Published: and Raman behavior of van Hove singularity in twisted bi- 2016 and few layer graphenes and environmental e‚ects, 2017 53. Chugh, M., Ranganathan, M. Adatom Interactions on Carbon 111, pp. 238-247 GaN(0001) Surface I: Coverage-Dependent Adsorption, 2016 43. Zheng, X., Gao, L., Yao, Q., (...), Luo, J., Wang, X. Robust Journal of Physical Chemistry C 120 (15), pp. 8076-8086 ultra-low-friction state of graphene via moire´ superlattice 52. ISHIMOTO, T., INADOMI, Y., HONDA, H., KOYAMA, M. Parallel con€nement, 2016 Nature Communications 7, 13204 Performance Analysis for Electronic Structure Calculation of ` Metal Nanoparticles, Journal of Computer Chemistry, Japan, 42. Basov, D.N., Fogler, M.M., GarcIa De Abajo, F.J. Polaritons in 14(3), 52-53, (2015). van der Waals materials, 2016 Science 354 (6309), aag1992 51. Prakash, J., Kumar, P., Harris, R.A., (...), Van Vuuren, A.J., 41. Jungwirth, N.R., Calderon, B., Ji, Y., (...), Flatte, M.E., Fuchs, Swart, H.C. Synthesis, characterization and multifunctional G.D. Temperature Dependence of Wavelength Selectable properties of plasmonic Ag-TiO2 nanocomposites, 2016 Na- Zero-Phonon Emission from Single Defects in Hexagonal notechnology 27 (35), 355707 Boron Nitride, 2016 Nano Letters 16 (10), pp. 6052-6057 50. Jin, R., Zeng, C., Zhou, M., Chen, Y. Atomically Precise Co- 40. Di Mauro, A., Randazzo, R., Spano, S.F., (...), DUrso,´ A., Pu- lloidal Metal Nanoclusters and Nanoparticles: Fundamen- rrello, R. Vortexes tune the chirality of graphene oxide and tals and Opportunities, 2016 Chemical Reviews 116 (18), pp. its non-covalent hosts, 2016 Chemical Communications 52 10346-10413 (89), pp. 13094-13096 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 189

39. Yu, K; Kim, J; Kim, JY; Lee, W; Hwang, JY; Hwang, EH; Choi, EJ 28. Robinson, JT; Culbertson, J; Berg, M; Ohta, T Work Function Infrared spectroscopic study of carrier scattering in gated Variations in Twisted Graphene Layers, SCIENTIFIC REPORTS, CVD graphene, PHYSICAL REVIEW B, 94 (23):10.1103/Phys- 8 10.1038/s41598-018-19631-4 JAN 31 2018 RevB.94.235404 DEC 2 2016 27. Stauber, T; Low, T; Gomez-Santos, G Chiral Response of 38. Lin, J., Zhang, N., Tong, L., Zhang, J. Enhanced Raman Scat- Twisted Bilayer Graphene, PHYSICAL REVIEW LETTERS, 120 tering on Graphene and beyond, 2016 ACS Symposium Se- (4):10.1103/PhysRevLett.120.046801 JAN 25 2018 ries1246, pp. 97-119 FRONTIERS OF PLASMON ENHANCED TIPO B (1): SPECTROSCOPY, VOL 2, 1246 97-119; 2016 26. Kang, K; Lee, KH; Han, YM; Gao, H; Xie, SE; Muller, DA; 37. Castriciano, M.A., Gentili, D., Romeo, A., Cavallini, M., Sco- Park, J Layer-by-layer assembly of two-dimensional laro, L.M. Spatial control of chirality in supramolecular ag- materials into wafer-scale heterostructures, NATURE, 550 gregates, 2017 Scienti€c Reports 7,44094 (7675):229-233; 10.1038/nature23905 OCT 12 2017

36. Wang, B., Huang, M., Kim, N.Y., (...), Lee, Z., Ruo‚, R.S. Con- trolled Folding of Single Crystal Graphene, 2017 Nano Let- Art´ıculo (citas 1): ters 17(3), pp. 1467-1473 Plasmonics of multifaceted metallic nanoparticles, €eld enhancement and TERS, Cecilia Noguez, C.J. Villagomez,´ 35. Nakayama, K., Kuno, M., Yamauchi, K., (...), Sato, T., Ta- A.L. Gonzalez,´ Physica Status Solidi B 252, 56–71 (2015) kahashi, T. Band splitting and Weyl nodes in trigonal te- llurium studied by angle-resolved photoemission spectros- TIPO A (1): copy and density functional theory, 2017 Physical Review B - Condensed Matter and Materials Physics 95(12),125204 25. Maurer, R.J., Ruiz, V.G., Camarillo-Cisneros, J., (...), Reuter, K., Tkatchenko, A. Adsorption structures and energetics 34. Morell, ES; Chico, L; Brey, L Twisting dirac fermions: cir- of molecules on metal surfaces: Bridging experiment and cular dichroism in bilayer graphene 2D MATERIALS, 4 theory, 2016 Progress in Surface Science 91 (2) 72-100 (3):10.1088/2053-1583/aa7eb6 SEP 2017

33. Verre, R; Shao, L; Lank, NO; Karpinski, P; Yankovich, AB; An- Art´ıculo (citas 4): tosiewicz, TJ; Olsson, E; Kall, M Metasurfaces and Colloidal Ab initio electronic circular dichroism of fullerenes, Suspensions Composed of 3D Chiral Si Nanoresonators, AD- single-walled carbon nanotubes and ligand-protected VANCED MATERIALS, 29 (29):10.1002/adma.201701352 AUG metal nanoparticles, Cecilia Noguez; Francisco Hidalgo; 4 2017 Chirality 26 (9), 553 –562 (2014) 32. Naumis, GG; Barraza-Lopez, S; Oliva-Leyva, M; Terrones, H Electronic and optical properties of strained graphene and TIPO A (4): other strained 2D materials: a review, REPORTS ON PRO- 24. Watanabe, G; Yoshida, J Molecular Dynamics Approach for GRESS IN PHYSICS, 80 (9):1-62; 10.1088/1361-6633/aa74ef Predicting Helical Twisting Powers of Metal Complex Dopants SEP 2017 in Nematic Solvents, J Phys Chem B 120 (27):6858-6864 31. Wu, ZL; Zheng, YB Moire Chiral Metamaterials, ADVANCED 2016 OPTICAL MATERIALS, 5 (16):SI 10.1002/adom.201700034 23. Srebro-Hooper, M., Autschbach, J. Calculating Natural Opti- AUG 16 2017 cal Activity of Molecules from First Principles, 2017 Annual 30. Xu, XZ; Zhang, ZH; Dong, JC; Yi, D; Niu, JJ; Wu, MH; Lin, L; Review of Physical Chemistry 68, pp. 399-420 Yin, RK; Li, MQ; Zhou, JY; Wang, SX; Sun, JL; Duan, XJ; Gao, 22. Sau, S; Alsaab, HO; Kashaw, SK; Tatiparti, K; Lyer, AK Ad- P; Jiang, Y; Wu, XS; Peng, HL; Ruo‚, RS; Liu, ZF; Yu, DP; Wang, vances in antibody-drug conjugates: A new era of targeted EG; Ding, F; Liu, KH Ultrafast epitaxial growth of metre-sized cancer therapy, DRUG DISCOVERY TODAY, 22 (10):1547-1556; single-crystal graphene on industrial Cu foil, SCIENCE BU- 10.1016/j.drudis.2017.05.011 OCT 2017 LLETIN, 62 (15):1074-1080; 10.1016/j.scib.2017.07.005 AUG 15 2017 21. Komorowski, PG; Cottam, MG Electronic modes in car- bon nanotubes with single and double impurity sites, 29. Duong, DL; Yun, SJ; Lee, YH van der Waals Layered INTERNATIONAL JOURNAL OF MODERN PHYSICS B, 31 Materials: Opportunities and Challenges, ACS NANO, 11 (29):10.1142/S0217979217502204 NOV 20 2017 (12):11803-11830; 10.1021/acsnano.7b07436 DEC 2017 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 190

Art´ıculo (citas 2): The optical response of composites at low €lling fractions: How to Control Optical Activity in Organic-Silver Hybrid a new diagrammatic summation, R. G. Barrera, Cecilia No- Nanoparticles, Francisco Hidalgo; Cecilia Noguez; Nanos- guez, y E. V. Anda, Surface Sciences: lectures on basic con- cale 8 (30), pp. 14457-14466 (2016) cepts and applications, pags. 249-255, ed. por F.A. Ponce y M. Cardona, Springer-Verlag, Berl´ın, (1991) TIPO B (1): TIPO A (3): 15. R. G. Barrera, M. del Castillo–Mussot, G. Monsivais, 20. Yao, H; Shiratsu, T Improving the Quality of P. Villaseor, and W. L. Mochan,´ Optical properties of Electrophoretically-fractionated Chiral Au-38(SG)(24) two-dimensional disordered systems on a substrate, Phys. Nanoclusters through a Stepwise Phase-transfer Extraction Rev. B 43, 13819 (1991) Process: An Absorption and CD Spectroscopic Study, CHEMISTRY LETTERS, 46 (1):104-107; 2017 Memoria (citas 3): 19. Kumar, J., Kawai, T., Nakashima, T. Circularly polarized lumi- Dielectric response of a chain of disorded polarizable nescence in chiral silver nanoclusters, 2017 Chemical Com- spheres: numerical simulation and theory, Pedro Vi- munications 53 (7), pp. 1269-1272 llasenor-Gonz˜ alez,´ Cecilia Noguez, Ruben´ G. Barrera, Applications of multiple scattering theory to material 18. Kuno, J; Kawai, T; Nakashima, T The e‚ect of surface ligands science, MRS Symposium Proceedings, Vol. 253, pags. on the optical activity of mercury sul€de nanoparticles, 123-128, ed. por William H. Butler, Peter H. Dederichs, A. NANOSCALE, 9 (32):11590-11595; 10.1039/c7nr02603j AUG Gonis and R. Weaver, MRS, Pittsburgh, (1992) 28 2017

TIPO A (3): Art´ıculo (citas 1): 14. A. Gonis and W.H. Butler, Multiple Scattering in Solids, pag. Plasmonic Response of Nested Nanoparticles with Arbitrary 5, (Springer – Verlag, New York), 2000 Geometry, R D´ıaz, R Esquivel-Sirvent & Cecilia Noguez, Journal of Physical Chemistry C 120 (4), pp 2349–2354 13. Cruz-Mandujano J, Mendoza BS Disorder e‚ects on second- (2016) harmonic generation from one-dimensional arrays of po- larizable units, Phys. Rev. B 62, 8438 (2000) TIPO B (1): 12. Cruz J, Jonguitud E, Mendoza BS Second-harmonic gene- ration from disordered 1D chains of polarizable-spheres, 17. Santiago, E.Y., Esquivel-Sirvent, R. Near Field Heat Transfer Physica A 241, 12 (1997) between Random Composite Materials: Applications and Limitations, 2017 Zeitschri† fur Naturforschung - Section A Memoria (citas 2): Journal of Physical Sciences 72(2), pp. 129-134 Optical signature of the GaN(1010) surface, Cecilia Noguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and Cap´ıtulo en libro (citas 1): D.A. Drabold, MRS Symposium Proceedings Vol. 449, pp. Quantum mechanical calculations of electronic and optical 911-916, (1997); editado por F.A. Ponce, T.D. Moustakas, I. properties of semiconductor surfaces, Cecilia Noguez, and Akasaki, B.A. Monemar Olivia Pulci, “Quantum Chemical Calculations of Surfaces and Interfaces of Materials”, pages 217 –248, Editors: V. TIPO A (2): A. Basiuk and P. Ugliengo, American Scienti€c Publishers (2009) 11. Mo YH, Nahm KS, Yang SH, Kim KC, Lee WH, Suh EK, Lim KY Growth and characterization of GaN thin €lms on beta-SiC/Si substrate using rapid thermal chemical vapor deposition J TIPO B (1): Korean Phys Soc 34, S364 Suppl. S (1999) 16. Marsili M, Pulci O The fascinating physics of carbon 10. Bermudez, V.M. The fundamental surface science of surfaces: €rst-principles study of hydrogen on C(001), wurtzite gallium nitride, 2017 Surface Science Reports C(111) and graphene, J. Phys D-App. Phys. 43, 374016 (2010) 72(4), pp. 147-315

Memoria (citas 1): Memoria (citas 3): 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 191

Casimir Forces between thermally activated nanocom- mechanisms, J. Physics D: Appl. Phys. 41, 155304 (2008) posites, R Esquivel-Sirvent, C. Villarreal, Cecilia Noguez, MRS Symposium Proceedings Vol. 703, pp. 99 – 104, (2002) 4. Fitzgerald, TM; Marciniak, MA; Nauyoks, SE Development of a tunable polarimetric scatterometry system in the MWIR and LWIR, Reƒection, Scattering, and Di‚raction from Surfa- TIPO B (3): ces II 7792: Art. No. 779209 2010 9.J.B arcenas,´ L. Reyes, R. Esquivel Sirvent, Casimir force bet- ween bimetallic heterostructures, physica status solidi (c) 2, 3. T M. Fitzgerald, M A. Marciniak Full Optical Scatter Analysis 3059 (2005) for Novel Photonic and Infrared Metamaterials, Conference Proceedings of the Society for Experimental Mechanics 8. Esquivel-Sirvent, R., Reyes, L., Barcenas, J., Stability and the Series, 1, Volume 2, MEMS and Nanotechnology, Volume 2, proximity theorem in Casimir actuated nano devices, (2006) Pages 97-105 New Journal of Physics, 8 241.

7. R. Esquivel-Sirvent, Casimir force calculations near the Memoria (citas 1): insulator -conductor transition in gold thin €lms, Phys. Rev. A 77, 042107 (2008) Casimir force between a sphere and a plane: spectral representation formalism, Cecilia Noguez, C. E. Roman-´ Velazquez,´ en las memorias de “Quantum Field Theory Memoria (citas 4): Under the Inƒuence of External Conditions”, pags. 97 – Light Scattering of isolated nanoparticles with arbitrary 103, Rinton Press, Ed. por K. A. Milton (2004) shapes, Cecilia Noguez, I. Sosa, R.G. Barrera. 2001 Fall Meeting Proc., Symposium W Nanoparticulate Materials, TIPO A (1): Editors: R.K. Singh, R. Partch, M. Muhammed, M. Senna, H. Hofmann, MRS Proceedings Volume 704, pag. 275 – 280 2. Milton, Kimball A. J. Phys A37, R209 (2004) (2002) Art´ıculo (citas 1): TIPO A (4): Comunicacion´ Privada 6. Kumbhar, A. S.; Kinnan, M. K.; Chumanov, G.; Multipole Plas- TIPO A (1): mon Resonances of Submicron Silver Particles, J. Am. Chem. Soc.; (Communication); 2005; 127(36); 12444-12445. 1. K. Pedersen and P. Morgen, Dispersion of 2nd harmonic ge- 5. Kan, CX; Zhu, JJ; Zhu, XG, Silver nanostructures with well- neration on Si(111)-7×7, Phys Rev B 52, R2277, (1995). controlled shapes: synthesis, characterization and growth 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 192

LISTA DE TRABAJOS EN CONGRESOS CON PARTICIPACION´ REGULAR

137 presentaciones regulares de un total de 315 incluyendo conferencias invitadas (ver arriba)

315. Ultrastability and Charge Distribution in Silver, Gold and Noguez, Amanda S. Barnard, Conference on Frontiers of Na- Bimetallic Clusters: The Ag44-xAux(SR)304- and Ag25- noscience, ICTP, Miramare- Trieste, Italy 24 de agosto a 1o xAux(SR)181- cases, Morera-Boado, C; Hidalgo, F; Cecilia de septiembre de 2015 Noguez, XVI Reunion´ Mexicana de Fisicoqu´ımica Teorica.´ 304. Optical and Structural Properties of silver and gold nano- Noviembre, Puebla, 2017 particles as a function of size and temperature, A. L. Gonza- 314. Chiroptical Response of Twisted-Bilayer Graphene and Ap- lez, Cecilia Noguez, Amanda S. Barnard, XXIV International plications, Cecilia Noguez, 16th International Conference Materials Research Congress, Canc˙n, MExico` 16 a 20 de on Chiroptical Spectroscopy 2017, 11th to 15th June, 2017, agosto, 2015 Rennes, France. 303. Mathematical Aspects of Recursive E‚ective Medium Theo- 313. Radiative Heat Transfer between Plasmonic Nanospheres , ries in Layered Nanoparticles, Rafael D´ıaz, Raul Esquivel, David Becerril, Cecilia Noguez, 2017 MRS Spring Meeting, Cecilia NoguezXXIV International Materials Research Con- Phoenix, Arizona, Abril 16 –20. gress 16-20 Agosto 2015 312. Controlling Optical Activity in Two-atom-thick Graphene, 302. Numerical calculations of the plasmonic response of nes- Cecilia Noguez, A Sanchez-Castillo, 18 International Con- ted nanoparticles, H. Batiz-G, Cecilia Noguez, R. D´ıaz-HR, ferences in Solid Films and Surfaces, Chemnitz, Alemania, XXIV International Materials Research Congress 16-20 Agos- August 28 to Sept. 2 2016 to 2015 301. SIZE DEPENDCE OF ADSORPTION PROPERTIES OF METHYLT- 311. PLASMONIC RESPONSE OF GOLD NANORODS: SHAPE, SIZE HIO ON SILVER NANOPARTICLES, David Becerril, Cecilia No- AND ORIENTATION DEPENDENCE, Ana L Gonzalez, Cecilia guez, XXIV International Materials Research Congress 16-20 Noguez XXV International Materials Research Congress 16- Agosto 2015 20 Agosto 2016 300. Design and challenges of a STM/AFM set-up in UHV and low 310. Radiative Heat Transfer Between Plasmonic Nanoparticles, temperature, C. J. Villagomez, G. Pirruccio, Cecilia Noguez, D. Becerril, Cecilia Noguez XXV International Materials Re- XXIV IMRS, Cancun, Mexico, August 15-21, 2015. search Congress 16-20 Agosto 2016 299. Understanding optical activity in ligand-protected noble 309. E‚ects of core size and position on the near €eld of Au-Ag metal nanoparticles: intrinsic and geometric chirality, Fran- core-shell nanoprolate dimers, H. Batiz,´ G. Pirruccio, Cecilia cisco Hidalgo, Cecilia Noguez, 11th International Conference Noguez XXV International Materials Research Congress 16- on Optics of Surfaces and Interfaces (OSI-11), June 28 ? July 20 Agosto 2016 3, 2015 in Austin, Texas, USA 308. Morphology and optical activity: understanding electronic 298. Plasmonic response of nested nanoparticles with arbitrary circular dichroism in ligand-protected noble metal nanopar- geometry, R. Esquivel-Sirvent, Cecilia Noguez, Rafael D.H. ticles, F Hidalgo, Cecilia Noguez XXV International Materials Rojas, 11th International Conference on Optics of Surfaces Research Congress 16-20 Agosto 2016 and Interfaces (OSI-11), June 28–July 3, 2015 in Austin, Te- 307. Designing the plasmonic modes in nanoparticles, D. Bece- xas, USA rril, Cecilia Noguez Heat Transfer and Heat Conduction on 297. Adsorption of Methyl Thiol on Silver Nanoclusters: Size De- the Nanoscale, Physikzentrum Bad Honnef, Alemania Abril pendence, D. Becerril, Cecilia Noguez, 8th. Photodynamics 2016 and Related Aspect meeting, Oaxaca, octubre 2014 306. Morphological Changes of Plasmonic Nanoparticles when 296. Handedness Assigment of Semiconductor Single-Walled the system is heated up, A. L. Gonzalez, Cecilia Noguez, Carbon Nanotubes, Cecilia Noguez, MRS New diamond and Amanda S. Barnard, International Symposium on Interaction new carbon, Chicago, Il, mayo 2014 of Radiation with Matter 2015 Toluca, Edo. de MExico` 11 al 295. Adsorption energy of methyl thiol on silver nanoclusters: 13 de nov. de 2015 size dependence, D. Becerril, F. Hidalgo, Cecilia Noguez, 305. Map of Structural and Optical Properties of Plasmonic Na- XXII International Materials Research Congress, 11-15 Agosto noparticles at Thermal Equilibrium,A. L. Gonzalez, Cecilia 2013, Cancun, Mexico 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 193

294. On the Absolute Con€guration of Semiconductor Single- 283. Chirality, optical activity, and enantiospeci€c adsorption in Walled Carbon Nanotubes Cecilia Noguez, Ariadna gold clusters, I. E. Santizo, F. Hidalgo-Moreno, L. A. Perez,´ Sanchez-Castillo, 14th International Conference of Chiropti- Cecilia Noguez, I L. Garzon,´ XIV International Symposium cal Spectroscopy, Vanderbilt University, Nashville, TN, USA, on Small Particles and Inorganic Clusters, Valladolid, Spain June 9-13, 2013 September 15-19, 2008.

293. Temperature and Shape Dependent Optical Properties of 282. Ab initio Calculations of the Circular Dichroism in Chiral Fu- Gold Nanoparticles, Ana L. Gonzalez, Cecilia Noguez, A. S. llerenes and Bare and Passivated gold nanoclusters, F. Hi- Barnard, V International Conference on Surfaces, Materials dalgo, A. Sanchez-Castillo,´ Ignacio L. Garzon,´ Cecilia No- and Vacuum 2012, Mexico,´ Septiembre de 2012. guez, EPIOPTICS-10 International School of Solid State Physics, 292. Optical activity and its relationship with adsorption site and Erice - Sicily, 20 - 27 June 2008. nanoparticle size of Agx-SCH3, Hidalgo, F.; Cecilia Noguez, EpiOptics12-School, Italia, Julio de 2012. 281. Optical circular dichroism of bare and passivated Au chi- ral clusters Cecilia Noguez,A.Sanchez-Castillo,´ F. Hidalgo, 291. Optical activity in the Ag55-SCH3 compound, Hidalgo, F.; Ignacio L. Garzon,´ American Chemical Society, March Mee- Cecilia Noguez, Pan-American Advanced Studies Institute ting, Chicago (2007). Computational Material Science for Energy Generation and Conversion, Chile, Enero de 2012. 280. First Principle Calculation of Circular Dichroism in Carbon Nanotubles, A. Sanchez-Castillo, Cecilia Noguez, Chirality 290. Determination of the absolute handedness in semiconduc- 2007, San Diego California, 8 –11 de Julio. tor carbon nanotubes, Ariadna Sanchez-Castillo, Cecilia Noguez, Optics of Surfaces and Interfaces 9, Septiembre, 279. Optical circular dichroism of bare and passivated Au nano- 2011 clusters,A.Sanchez-Castillo,´ F. J. Hidalgo, I.L. Garzon,´ and Cecilia Noguez, Internationa Conference “Chirality at the 289. Color Catalogue of Gold Nanoparticles as a Function of Size Nanoscal”, Sitges, Barcelona 17th - 21st September 2007. and Temperature, Ana L. Gonzalez, Cecilia Noguez, Amanda Banard, Optics of Surfaces and Interfaces 9, Septiembre, 278. Interacting surface plasmons and the role of geometry on 2011 dispersive forces, Cecilia Noguez, Carlos Roman-Vel´ zquez,´ Dispersion Forces and Nano-Electro-Mechanical Systems, 288. Surface Plasmon Resonance in Single Metal Nanoparticles Lorentz Center, Leiden Holanda, Dic. 9 – 15 (2006). and 1D-Nanostructure Arrays for the Control of Enhanced Spectroscopies, C. E. Roman-Vel´ azquez,´ Cecilia Noguez, Na- 277. Interacting surface plasmons between macroscopic bodies: nostructured Material and Nanotechnology Simposium 1, of geometrical e‚ects on dispersive forces, Cecilia Noguez, the XIX International Materials Research Congress, Agosto, Carlos Roman-Vel´ zquez,´ ”Seventh Workshop on Quantum 2010. Field Theory under the Inƒuence of External Conditions”, IEEC, CSIC and University of Barcelona Barcelona, Catalonia, 287. On the origin of optical activity in chiral nanostructures, Ce- Spain, September 5-9, 2005 cilia Noguez,A.Sanchez-Castillo,´ IX Brazilian MRS Meeting 2010, Octubre, 2010. 276. Optical properties of isolated and supported metal nano- particles, Cecilia Noguez, Paci€chem 2005, Meeting, Ho- 286. Estudio de los Plasmones de Super€cie de Nanoshells Multi- nolulu, Hawaii. ples, C. E. Roman-Vel´ azquez´ y Cecilia Noguez, LII Congreso Nacional de F´ısica, Acapulco Gro., octubre 26-30 2009. 275. Optical properties of chiral nanostructures, Cecilia Noguez, Roman-Vel´ azquez´ Carlos E., Garzon´ Ignacio L. Annual APS 285. Surface Enhanced Raman Scattering (SERS) on a meta- March Meeting 2004, March 22 – 26, 2004, Montreal, Que- ´ ´ llic wedge, Alı M. Angulo Martınez y Cecilia Noguez, 4th bec, Canada. CANADA-AMERICA-MEXICO Graduate Student Physics Con- ference, Acapulco Gro., October 22 - 24, 2009 274. Optical properties of chiral nanotubes, Cecilia Noguez, Roman-Vel´ azquez´ Carlos E., Sanchez´ Ariadna, Meza Mon- 284. Circular dichroism of passivated gold nanoclusters,A. tes Lilia, Annual APS March Meeting 2004, March 22 – 26, ´ Sanchez-Castillo, Cecilia Noguez, Symposium Protected 2004, Montreal, Quebec, Canada. Metallic Clusters, Quantum Wells and Metal-nanocrystal Molecules, American Chemical Society 238th National Mee- 273. Calculo´ de espectros de dicroismo circular de nanotubos ting 16–20 August, 2009, Washington DC EU. quirales Ariadna Sanchez-Castillo,´ C. E. Roman-Vel´ azquez,´ 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 194

Cecilia Noguez, L. Meza-Montes VI Taller Nacional de Es- 262. Fuerzas de casimir de una nanopart´ıcula en un substra- tudiantes de Posgrado en F´ısica y Ciencia de Materiales, to Cecilia Noguez, C. Roman´ Velazquez,´ C. Villarreal y R. Puebla 2004 Esquivel-Sirvent XLV Congreso Nacional de F´ısica, Leon´ Gto., octubre 2002. 272. Estudio teorico´ de nanotubos de carbono por medio de di- croismo circular Ariadna Sanchez´ Castillo, Carlos E. Roman´ 261. Propiedades electronicas´ de super€cies semiconductoras Velazquez,´ Cecilia Noguez, y L. Meza Montes IX Encuentro ideales X. Lopez´ Lozano, Cecilia Noguez, y L. Meza Montes Regional de Investigacion´ y Ensenanza˜ de la F´ısica, Puebla, V Taller de Estudiantes de Posgrado, Puebla 2002 Junio 2004. 260. Propiedades electronicas´ de las super€cies semiconducto- 271. Propiedades opticas´ de nanoestructuras quirales, Cecilia ras ideales GaAs e InAs X. Lopez´ Lozano, Cecilia Noguez, Noguez, Congreso Interno Anual, Instituto de Fisica, UNAM, y L. Meza Montes VIII Encuentro Regional de Investigacion´ Mexico´ D.F. 11 – 13 de mayo 2004. y Ensenanza˜ de la F´ısica, Puebla 2002. 270. Circular dichroism spectra of chiral gold nanoclusters, I.L. 259. Electronic structure of the reconstructed surface InAs(110) Garzon, C.E. Roman-Velazquez, Cecilia Noguez, March Mee- X. Lopez-Lozano,´ Cecilia Noguez, y L. Meza-Montes Socie- ting of the American Physical Society Austin, EUA Marzo 3-7, dad Mexicana de Ciencia de Super€cies y Vac´ıo A.C., XXII 2003. Congreso Nacional, Octubre 2002. 269. Chirality and circular dichroism spectra of gold nanoclus- 258. Dicroismo circular optico´ de cumulos´ atomicos´ de oro C. ters, I.L. Garzon, C.E. Roman-Velazquez, Cecilia Noguez, Roman-Vel´ azquez,´ Cecilia Noguez, y I.L. Garzon.´ XLV Con- 225th National Meeting of the American Chemical Society greso Nacional de F´ısica, Leon´ Gto., octubre 2002. New Orleans, EUA Marzo 23-27, 2003. 257. Casimir foreces in non-homogeneous planar and spheri- 268. Optical Properties of the cleavage InAs(110) surface X. cal systems, Villarreal, C., Esquivel-Sirvent, R., Mochan,´ L. Lopez-Lozano,´ Cecilia Noguez, L. Meza-Montes Optics of y Cecilia Noguez, ITAMP Workshop 2002: Casimir forces: Surfaces and Interfaces V, Leon´ Guanajuato, Mexico´ 26 – recent developments in experiments and theory, Harvard 30, 2003. Cambridge, noviembre 2002. 267. High-Multipolar e‚ects on dispersive forces between a 256. Di‚erential reƒectance of a planar system of self- nanoparticle and a surface Cecilia Noguez, C.E. Roman-´ assembled quantum dots Ruben G. Barrera, Cecilia Noguez, Velazquez,´ C. Villarreal, and R. Esquivel-Sirvent Optics of Sergio E. Ulloa March Meeting, Atlanta Georgia, 1999. Surfaces and Interfaces V, Leon´ Guanajuato, Mexico´ 26 – 255. Electron Energy-Loss for anisotropic systems: Application 30, 2003. to GaN (10øverline10) Raul Esquivel-Sirvent, Cecilia No- 266. Spectral representation of the Casimir force between a guezMarch Meeting, Atlanta Georgia, 1999. sphere and a substrate, Cecilia Noguez, C.E. Roman- 254. Viscoelastic porperties of colloidal suspensions R. Esquivel- Velazquez, C. Villarreal and R. Esquivel- Sirvent 8th Inter- Sirvent, Cecilia Noguez, G. Ramirez-Santiago´ Materials Re- national Conference on Squeezed States and Uncertainty search Society, Fall Meeting, Boston, Dic. 1999. Relations ICSSUR’2003, Puebla, Mexico,´ June 9-13, 2003. 253. Electron Energy-Loss and Optical Spectra of GaN (1010) 265. Optical Characterization of Metal Nanparticles with Arbi- and (110) surfaces Cecilia Noguez, March Meeting, Atlanta trary Shapes Cecilia Noguez, Ivan´ O. Sosa, Ruben´ G. Ba- Georgia, marzo 1999. rrera X International Congress of Composite Engineering: Nanocomposites (ICCE X) New Orleans July 20-26, 2003. 252. Optical properties of non-polar GaN surfaces Cecilia No- guez, The Third International Conference on Nitride Semi- 264. Circular dichroism simulated spectra of chiral gold na- conductors Montpellier, Francia julio 5 – 9, 1999. noclusters: A dipole approximation, Cecilia Noguez, C.E. Roman-Vel´ azquez,´ I.L. Garzon´ XII International Materials Re- 251. First-Principles calculations of optical properties of semi- search Congress, Cancun´ 17 – 22, 2003. conductor surfaces Cecilia Noguez, Materials Research So- ciety, Fall Meeting, Boston, Dic. 1999. 263. Spectral representation of the Casimir Force Between a Sp- here and a Substrate C.E. Roman-Velazquez, Cecilia No- 250. Spectroscopic theoretical study of the atomic reconstruc- guez, C. Villarreal and R. Esquivel-Sirvent, Sixth Workshop tion of GaN (1010) Cecilia Noguez, International Materials on Quantum Field Theory under the Inƒuence of External Research Congress, Symposium 9, August 30-September 4, Conditions, Norman Oklahoma, 15 – 19, 2003 Cancun, Mexico, 1998. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 195

249. Molecular Dynamics Simulations of Acoustic Properties of 237. Elastic wave propagation in quasi-periodic superlattices, H. Colloidal Suspensions Cecilia Noguez, R. Esquivel-Sirvent, Guerrero, R. Esquivel-Sirvent, Cecilia Noguez y S. E. Ulloa, G. Ram´ırez-Santiago March Meeting, Los Angeles California, March Meeting (APS National meeting), San Jose California, 1998. 1995.

248. Theory of electron energy loss for anisotropic systems: 236. Optical spectroscopy study of hydrogenation of the Si(111)- Application to GaN (1010) Cecilia Noguez, and R. Esquivel 7×7 surface, M. Roy, Y. Borensztein, A. Shkrebtii, Ceci- Sirvent International Materials Research Congress, Sympo- lia Noguez y R. Del Sole, ICFSI Conference, Princeton, junio sium 9, August 30-September 4, Cancun, Mexico, 1998. 1995. 247. Molecular Dynamic Simulations of acoustic properties of colloidal suspensions G. Ram´ırez-Santiago, R. Esquivel- 235. Multipolar E‚ects on a Linear Chain of Disorder Polariza- Sirvent, Cecilia Noguez, MRS Fall 97 Meeting, Boston Mass. ble Spheres, Cecilia Noguez, Ruben´ G. Barrera y Francisco 1-5 diciembre, 1997. Claro, March Meeting (APS National meeting), San Jose Ca- lifornia, 1995. 246. Optical signature of the GaN(1010) surface Cecilia Noguez, R. Esquivel-Sirvent, S.E. Ulloa and D.A. Drabold, March Mee- 234. Theoretical studies of the optical properties of diamond ting, Kansas City, 17-21 de marzo 1997. surfaces, Cecilia Noguez, Dominic Alfonso, S. E. Ulloa y D. 245. Propiedades opticas´ de la super€cie de nitruro de galio A. Drabold, March Meeting (APS National meeting), San Jose (100) Heriberto Hernandez´ Cocoletzi, Cecilia Noguez, R. Es- California, 1995. quivel Sirvent Congreso Nacional de F´ısica, Monterrey, oc- 233. Elastic wave propagation in randomly disordered layered tubre 1997. media, R. Esquivel-Sirvent y Cecilia Noguez, 127th Meeting 244. Theoretical and experimental optical spectroscopy study of the Acoustical Society of America, Boston Mass., junio of hydrogen adsorption on Si(111)-7×7 Cecilia Noguez, M. 1994. Roy, C. Beitia, Y. Borensztein, A.I. Shkrebtii and R. Del Sole March Meeting (APS National meeting), St. Louis, Missouri, 232. Numerical simulation for the e‚ective susceptibility of a 1996. one-dimensional disordered chain of polarizable spheres, Cecilia Noguezy Ruben´ G. Barrera, March Meeting, Seattle, 243. Theoretical study of the optical properties of silicon clus- 1993. ters Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold and S.Y. Yang March Meeting (APS National meeting), St. Louis, 231. Approach to the calculation of the Si(111)-7×7 optical pro- Missouri, 1996. perties, Cecilia Noguez, A.I. Shkrebtii y R. Del Sole, 18th 242. Theoretical study of the optical properties of silicon clusters annual meeting, advances in surface and interface physics, Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold and S.Y. Modena, Italy, diciembre 1993. Yang EPIOPTICS 4, Erice- Sicily, Junio 9 al 14, 1996. 230. Funcion´ dielectrica´ efectiva de una cadena lineal de es- 241. Structure and Optical Properties of Silicon Clusters, S.E. feras polarizables, Cecilia Noguez, Ruben´ G. Barrera y Pe- Ulloa, Cecilia Noguez, J. Song, and D.A. Drabold Internatio- dro Villasenor-Gonz˜ alez,´ XXXV Congreso Nacional de F´ısica, nal Materials Research Congress: CanCun-96, Symposium Puebla, Mexico,´ octubre 1992. 15: Computational Materials Science: Theory and Simula- tion, Cancun´ 2-6 septiembre, 1996. 229. E‚ective dielectric response of 1D composites, Cecilia No- guez, y Ruben´ G. Barrera, 38th Scottish Summer School of 240. The role of hydrogen as a precusor of the 7 × 7 → 1 × Physics: Physics of Nanostructures, St. Andrews Escocia, ju- 1 phase transition of Si(111), Cecilia Noguez, S.E. Ulloa y lio 1991. D.A. Drabold, MRS Fall 96 Meeting, Boston Mass. 2-6 de diciembre 1996. 228. The dielectric response of a chain of disordered polarizable 239. Acoustic response of laminated SiC ceramics R. Esquivel- spheres: numerical simulation and theory, Cecilia Noguez, Sirvent and Cecilia NoguezMarch Meeting (APS National Pedro Villasenor-Gonz˜ alez´ y Ruben´ G. Barrera, Material Re- meeting), St. Louis, Missouri, 1996. search Society Fall Meeting, Boston, diciembre 1991. 238. Structural, electronic and optical properties of hydrogena- 227. La respuesta dielectrica´ efectiva de un compuesto: una ted Si(111)-7×7 surfaces, Dominic Alfonso, Cecilia Noguez, nueva aproximacion´ diagramatica.´ , Cecilia Noguez y Ruben´ D. A. Drabold y S. E. Ulloa, March Meeting (APS National G. Barrera, XXXIII Congreso Nacional de F´ısica. Ensenada meeting), San Jose California, 1995. Baja California, Mexico,´ octubre 1990. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 196

226. Understanding optical activity in organometallic nanopar- 214. Estudio del engrandecimiento extraordinario del campo ticles, F. Hidalgo, Cecilia Noguez, 14th International Con- electromagnetico´ en la vecindad de nanopart´ıculas metali-´ ference of Chiroptical Spectroscopy; Vanderbilt University; cas y su importancia en el efecto SERS, Al´ı M. Angulo Nashville, Tennessee, USA; 9-13 junio 2013 Mart´ınez y Cecilia Noguez, LII Congreso Nacional de F´ısica, Acapulco Gro., octubre 2009. 225. Map of the Structural and Optical Properties of Gold Na- noparticles at Thermal Equilibrium, Gonzalez, A.L.; Ceci- 213. Electronic Circular Dichroism of Single-Wall Carbon Nanotu- lia Noguez; Barnard, A.S., Gordon Conference “Plasmonics: bes,A.Sanchez-Castillo,´ Cecilia Noguez, XIV International Light-Matter Interaction at the Nanoscale”, Estados Unidos Symposium on Small Particles and Inorganic Clusters, Va- de America,´ Junio de 2012. lladolid, Spain September 15-19, 2008.

224. Optical Activity in the Ag55SCH3 Compound: Relationship 212. Optical circular dichroism of bare and passivated Au nano- between Circular Dichroism spectra and adsorption site, clusters, F. Hidalgo-Moreno, I. L. Garzon,´ Cecilia Noguez, Francisco Hidalgo, Cecilia Noguez, XXXVII CONGRESO DE XIV International Symposium on Small Particles and Inor- QUIMICOS TEORICOS DE EXPRESION LATINA (QUITEL 2011), ganic Clusters, Valladolid, Spain, September 15-19, 2008. Diciembre, 2011 211. Circular Dichroism of Gold Nanoclusters, F. J. Hidalgo and 223. Catalogo´ de Colores de Nanopart´ıculas de Oro en funcion´ Cecilia Noguez, PASI2007: Panamerican Advanced Study del tamano˜ y temperatura, Ana L. Gonzalez, Amanda Ba- Institute, Electronic States and Excitations on Nanostructu- nard, Cecilia Noguez, Poster, 1er Coloquio Fisico Nano 2011, res, Zacatecas, Mexico, june 11 to 22, 2007. Octubre, 2011 210. First Principle calculations of electronic and optical pro- 222. The role of ligands in metallic gold clusters, Ariadna San- perties of €ve-fold Ag clusters, Al´ı M. Angulo and Cecilia chez Castillo, Cecilia Noguez, Optics of Surfaces and Inter- Noguez, PASI2007: Panamerican Advanced Study Institute, faces 9, Septiembre, 2011 Electronic States and Excitations on Nanostructures, Zaca- tecas, Mexico, june 11 to 22, 2007. 221. Electromagnetic Field Enhancement at the Edge of Metal na- nostructures, Ali M Angulo, Cecilia Noguez, Optics of Sur- 209. First Principles Calculations of Circular Dichroism in Carbon faces and Interfaces 9, Septiembre, 2011 Nanotubes,A.Sanchez-Castillo´ and Cecilia Noguez, PA- SI2007: Panamerican Advanced Study Institute, Electronic 220. Optical Activity in the Ag55SCH3 Compound: Relationship States and Excitations on Nanostructures, Zacatecas, Mexi- between Circular Dichroism spectra and adsorption site, co, june 11 to 22, 2007. Francisco Hidalgo, Cecilia Noguez, Optics of Surfaces and Interfaces 9, Septiembre, 2011 208. Light extinction of regular shape metal nanoparticles,A. L. Gonzalez´ and Cecilia Noguez, PASI2007: Panamerican 219. Surface Enhanced Raman Scattering at the edge of meta- Advanced Study Institute, Electronic States and Excitations llic Nanoparticles, Angulo-Martinez, A, Roman-Velazquez, C, on Nanostructures, Zacatecas, Mexico, june 11 to 22, 2007. Cecilia Noguez, XV International Symposium on Small Clus- ters and Inorganic Clusters, Septiembre, 2010. 207. Surface Plasmon Resonances of Metal Polyhedral Nanopar- ticles, A. L. Gonzalez´ y Cecilia Noguez, Nanotech 2006, 218. On the Origin of the Optical Activity Displayed by Chiral- May 7-11, 2006, in Boston, Massachusetts, U.S.A. Ligand-Protected Metallic Nanoclusters, Sanchez-Castillo, A, I.L. Garzon, Cecilia Noguez, XV International Symposium on 206. Dinamica´ Molecular de clusters de plata, Al´ı M. Angulo, Ce- Small Clusters and Inorganic Clusters, Septiembre, 2010. cilia Noguez, Congreso Nacional de Fisica, San Luis Potos´ı, Mexico,´ octubre 2006. 217. Optical activity in single-wall carbon nanotubes, Sanchez- 205. Tuning surface plasmon on metal nanoparticles, Cecilia No- Castillo, A, Cecilia Noguez, XV International Symposium on guez, Gordon Research Conference on Plasmonics, Keene, Small Clusters and Inorganic Clusters, Septiembre, 2010. New Hampshire, July 23 – 28 (2006). 216. Plasmonic Metal Nanoparticles, Cecilia Noguez, Gonzalez, 204. Dispersive forces from interacting surface plasmon bet- A.L, IX Brazilian MRS Meeting 2010, Octubre, 2010. ween a spheroid and a plane: the role of geometry, Carlos 215. On the origin of optical activity of ligand-protected metal Roman-Vel´ zquez,´ Cecilia Noguez, ”Seventh Workshop on nanoclsters,A.Sanchez-Castillo,´ Cecilia Noguez, Gordon Quantum Field Theory under the Inƒuence of External Con- Research Conference on Noble Metal Nanoparticlesat Mount ditions”, IEEC, CSIC and University of Barcelona, Barcelona, Holyoke College in South Hadley, MA, June 2010 Catalonia, Spain, September 5-9, 2005 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 197

203. Dependencia geometrica´ de las resonancias de plasmon´ 192. Estructura electronica´ de la super€cie relajada InAs(110) X. de super€cie para nanopartculas´ de plata de formas poli- Lopez´ Lozano, Cecilia Noguez, y L. Meza Montes XVI Sim- edrales, A. L. Gonzalez,´ y Cecilia Noguez, XLVIII Congreso posio Latinoamericano de F´ısica del Estado Solido,´ Merida,´ Nacional de F´ısica del 17 al 21 de octubre del 2005 en Gua- Venezuela, Dic. 2002. dalajara, Jal. 191. Light scattering by suspended nanoparticles Ivan´ O. Sosa, 202. Circular Dichroism Spectra of Chiral Single-Wall Carbon Na- Cecilia Noguez, R.G. Barrera Materials Research Society, Fall notubes,A.Sanchez-Castillo,´ Carlos E. Roman-Vel´ azquez,´ Meeting, Boston, Nov. 2001. Cecilia Noguez, L. Meza-Montes, International Conference 190. Light scattering by supported and suspended nanoparticles on the Science and Application of Nanotubes July 19–24, Ivan´ O. Sosa, Cecilia Noguez, R.G. Barrera PASI Nanoscience 2004, San Luis Potos´ı Mexico.´ and technology at the nanometer scale, Costa Rica, Jun. 201. Propiedades opticas´ de nanopart´ıculas metalicas´ esfericas´ , 2001 A. L. Gonzalez,´ G. P. Ort´ız, Cecilia Noguez, XLVII Congre- 189. Casimir Forces between thermally activated nanocom- so Nacional de F´ısica del 25 al 29 de octubre del 2004, posites Raul´ Esquivel-Sirvent, C. Villarreal, Cecilia No- Hermosillo, Son. guezMaterials Research Society, Fall Meeting, Boston, Nov. 200. Anisotropic electronic and optical properties of In nanowi- 2001. res on Si(111) X. Lopez-Lozano,´ F. Bechstedt, J. Furtmueller, 188. Spectral representation of the optical response of a sphe- A. A. Stekolnikov, Cecilia Noguez, and L. Meza- Montes VIII roidal particle on a substrate Carlos E. Roman-Velazquez,´ European Conference on Surface Crystallography and Dy- Cecilia Noguez, Ruben´ G. Barrera Workshop on Surface and namics, Segovia Espana,˜ Julio 2004. Interface Optics, 1999 Sainte Maxime, France, 4 – 9 May. 199. Electronic properties of the cleavage InAs(110) surface X. 187. Theory of electron energy loss spectroscopy for anisotro- Lopez-Lozano,´ Cecilia Noguez, L. Meza-Montes Third San pic systems: application to GaN surfaces Cecilia Noguez, Luis Symposium on Surfaces, Interfaces and Catalysis Meri-´ Workshop on Surface and Interface Optics, 1999, Sainte Ma- da, Venezuela, marzo 31 a abril 4, 2003. xime, France, 4 – 9 May. 198. Electronic and optical properties of InAs(110) X. Lopez-´ 186. Optical characterization of a spheroidal nanoparticle on a Lozano, Cecilia Noguez, L. Meza-Montes Pan American Ad- substrate C.E. Roman-Vel´ azquez,´ Cecilia Noguez, R.G. Ba- vanced Studies Institute on Physics at the Nanometer Scale, rrera Materials Research Society, Fall Meeting, Boston, Dic. San Carlos de Bariloche, Argentina, 8-18 June, 2003. 1999. 197. Optical Properties of Metal Nanoparticles with Arbitrary 185. Size dependence of the optical properties of silicon clusters Shapes, Ivan´ O. Sosa, Cecilia Noguez, and Ruben´ G. Barrera Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold and S.Y. Pan American Advanced Studies Institute on Physics at the Yang Third International Symposium of Nanostructures and Nanometer Scale, San Carlos de Bariloche, Argentina, 8-18 Mesoscopic systems, Santa Fe, New Mexico, mayo 1996. June, 2003. 184. Optical signature of the GaN(1010) surface Cecilia Noguez, 196. Dispersive forces at the nanometer scale, Cecilia Noguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and D.A. Drabold, C.E. Roman-Vel´ azquez´ XII International Materials Research MRS Fall 96 Meeting, Boston Mass. 2-6 de diciembre 1996. Congress, Cancun´ 17 – 22, 2003. 183. Acoustic signature of defects of SiC/porous SiC laminated 195. Circular Dichroism of gold nanoclusters C. Roman-´ ceramics R. Esquivel-Sirvent, Cecilia Noguez, MRS Fall 96 Velazquez,´ Cecilia Noguez, y I.L. Garzon.´ International Sym- Meeting, Boston Mass. 2-6 diciembre, 1996. posium of Small Particles and Inorganic Clusters XI, Stras- 182. Microscopic theory of the optical properties of Si(111)-7×7, burgo Francia, Septiembre 2002. Cecilia Noguez, A.I. Shkrebtii y R. Del Sole, 22nd Internatio- 194. Estructura electronica´ de la super€cie InAs(110) reconstrui- nal Conference on the Physics of Semiconductors, Vancou- da X. Lopez-Lozano,´ Cecilia Noguez, y L. Meza-Montes XLV ver, Canada, agosto 14-19, 1994. Congreso Nacional de F´ısica, Leon´ Gto., octubre 2002. 181. The disorder e‚ects on the e‚ective dielectric response 193. Casimir forces between a nanoparticle and a substrate of a linear chain of polarizable spheres, Cecilia Noguezy C. Roman´ Velazquez,´ Cecilia Noguez, C. Villarreal y R. Ruben´ G. Barrera, Third International Conference on Elec- Esquivel-Sirvent Materials Research Society, Fall Meeting, trical Transport and Optical Properties of Inhomogeneous Boston, Diciembre. 2002. Media (ETOPIM3), Guanajuato Mexico,´ agosto 1993. 9 de marzo de 2018 Curriculum Vitae: Cecilia Noguezp agina´ 198

180. Estudio experimental de las perturbaciones en una pel´ıcula efectiva, Cecilia Noguez y Ruben´ G. Barrera, V Escuela delgada descendente, Cecilia Noguez y Ramon´ Peralta- Mexicana de F´ısica Estad´ıstica, Oaxtepec Morelos, Mexico,´ Fabi, XXXII Congreso Nacional de F´ısica., Leon´ Guanajuato, agosto 1989. Mexico,´ octubre 1989. 179. Nueva suma diagramatica´ para la respuesta dielectrica´