Alessandro Alabastri Assistant Professor, ECE Dept., E-mail: [email protected], Web: http://alabastri.rice.edu Research: photothermal effects and transport mechanisms in micro/nano-systems

APPOINTMENTS Apr. 2015 – present Rice University, Electrical and Computer Eng. Department – Houston, TX (USA)  Tenure-Track Assistant Professor (July 2020 – present)  Texas Instruments Research Assistant Professor (July 2018 – July 2018)  NEWT Postdoctoral Leadership Fellow (Oct. 2016 – July 2018) Advisors: Prof. Peter Nordlander and Prof. Naomi Halas  Postdoctoral Fellow (Apr. 2015 – Oct. 2016) Advisor: Prof. Peter Nordlander Additional appointments:  Consultant for Syzygy , Inc. and Nanospectra Biosciences, Inc. for photo-induced heat dissipation and thermal transport modeling.

Jan. 2015 – Apr. 2015 Lawrence Berkeley National Laboratory – Berkeley, CA (USA) Visiting Researcher at the Molecular Foundry (User Program) Advisors: Prof. Remo Proietti Zaccaria (IIT) and Dr. Stefano Cabrini (LBNL) Apr. 2014 – Apr. 2015 Italian Institute of Technology – Genoa (Italy) Postdoctoral fellow – Nanostructures and Neuroscience Departments Advisor: Prof. Remo Proietti Zaccaria

EDUCATION Jan. 2011 – Apr. 2014 - PhD in Nanosciences Italian Institute of Technology and University of Genoa - Genova (Italy) Thesis: “Modeling the optical response of plasmonic nanostructures: electric permittivity, magnetic permeability and the influence of temperature” Advisors: Prof. Enzo Di Fabrizio and Prof. Remo Proietti Zaccaria

Sep. 2007 – Oct. 2009 - MSc in Engineering Physics Polytechnic University of Milan – Milan (Italy) Nano-Optics and

Apr. 2009 – Oct. 2009 – MSc Project with ERASMUS Scholarship Technical University of Denmark – Kgs. Lyngby (Denmark) Thesis: “Optical characterisation of Metamaterials" Advisors: Prof. Giulio Cerullo, Prof. Andrei Lavrinenko

Sep. 2004 – Jul. 2007 - BSc in Engineering Physics Polytechnic University of Milan – Milan (Italy) Thesis: “Study of a Poli(para-phenylene) polymer sample using Scanning Near- field Optical Microscopy with polarization analysis” Advisor: Prof. Marco Finazzi

RESEARCH METRICS 59 refereed articles (14 first/ corresponding), 22 invited talks/seminars, >1440 citations and h-index of 22 on Scopus (>1820 citations and h=22 on ). Self-citations <10%. HONORS AND AWARDS  2020 Solar Desalination Prize, Phase I, American Made Challenges, U.S. Department of Energy  2018 Texas Instrument Research Professorship from Rice University  2017 Association of American Universities, selected from one hundred applications to participate in the inaugural University Innovation and Entrepreneurship (I&E) Showcase in Washington, D.C  2017 (Co-PI) I-Corps Program, NSF ($50K): the program prepares scientists and engineers to extend their focus beyond the University for basic-research Projects that are ready to move toward commercialization.  2016: NEWT Postdoctoral Leadership Fellowship, NSF: awarded, for the first time, from the Enabled Water Treatment (NEWT) center in recognition for the service to the Engineering Research Center.  2016: Travel Grant: awarded from the Smalley-Curl Institute Travel Grant at the annual Transdisciplinary Symposium for a talk on Enabled Solar Membrane Distillation.  2015: User Program at the Molecular Foundry, LBNL: The Molecular Foundry user program gives researchers access to expertise and equipment for cutting-edge nanoscience in a collaborative, multidisciplinary environment.  2014 (Co-PI): ARIADNA grant from ESA - European Space Agency (€30K): Ariadna is an initiative of the European Space Agency to establish a link with the European academic community in advanced space technology research.

TEACHING  2019-2021: Finite Element Method for Multiphysics Modeling – Graduate Level, Full Semester (Spring), 3 credits – Instructor  2016: Modeling Light and Heat in (2 hrs.) Introduction to COMSOL for Electromagnetic modeling (2 hrs.) Graduate Level, Seminar – Instructor (voluntary)  2015 – 2016: Quantum Optics (6hrs.), Computational Electrodynamics (2hrs.) Graduate Level – Substitute Teacher

MENTORSHIP  2019: Summer Intern supervisor of an Undergraduate Researcher in Chemical Engineering (Rice University) at Syzygy Plasmonics, Inc.  2019: MSc thesis co-supervisor “Ultrafast Photo-Induced Symmetry Breaking in Plasmonic Nanostructures” - Polytechnic School of Milan, Italy.  2019: MSc thesis reviewer “Efficiency Limit of Far- and Near-field Thermophotovoltaic Energy Conversion” – Rice University, USA.  2019: MSc thesis reviewer “Titanium Dioxide Metasurface for Vacuum Ultraviolet Third- harmonic Generation” – Rice University, USA.  2019: PhD thesis reviewer - Magna Graecia University of Catanzaro, Italy. “Nanotopographical control of cell assembly into complex networks”  2017: Hosted undergraduate student from Ecole Centrale Paris, France (now Graduate at Polytechnic University of Milan, Italy) for 4 months. The work contributed to 7 publications ([33], [37], [41], [42], [47],[48],[54] of complete publication list)  2016, 2017: Hosted student from Scarsdale High School (NY, USA) (now Undergraduate at Vanderbilt University) for 2 months SYNERGISTIC ACTIVITIES  2019: Organizer - Light for energy: photonic and thermal nanotechnology Symposium, SWRM 2019, El Paso, TX (USA)  2019: Organizer - Thermoplasmonics and Photo-thermal Applications Focus Session, PIERS 2019, Rome (Italy)  2018: Review Panelist – 2019 cycle GEM Fellowship applications  2017: Chair – Plasmonic Nanostructures and Nanofabrication session  2016: Chair - Advanced Optical Properties of Nanomaterials session SPIE Optics+Photonics, San Diego (USA).  Referee for: PNAS, Nature Communications, Nano Letters, ACS Nano, ACS Photonics, Advanced Materials, , Nanoscale, Nano Energy, Laser & Photonics Reviews, Applied Thermal Engineering etc. publons: 96th merit percentile  Member of: Italian Optical Society for Optics and Photonics (SIOF) – Italian branch of the European Optical Society (EOS), NEWT (Nanotechnology Enabled Water Treatment) Consortium, SPIE – The International Society for Optical Engineering

MAIN SCIENTIFIC CONTRIBUTIONS  Predicted the role of temperature non-linearities in plasmonic nanostructures. The study led to the realization of high-aspect ratio antennas which can be used to self-limit light absorption for optoelectronics applications (Materials, 6, 2013, ACS Photonics, 2(1), 2015, Nano Lett., 17(9), 2017 ).  Conceived and optimized the use of light-absorbing nanoparticles for scalable solar water desalination systems. The technology is named Nanophotonics Enabled Solar Membrane Distillation (NESMD) and exploits heat localization to vaporize and purify water (PNAS, 114(27), 2017, PNAS, 116(27), 2019).  Discovered a new category of thermal oscillators that act as resonating systems and can be used to accumulate thermal energy and improve phase separation methods and chemical reactions (Energy & Env. Sci., 13, 2020, Phys. Rev. Appl., 2020). INVITED - TALKS AND SEMINARS [22] 2020 postponed – Invited Speaker, META 2020, Session: “Light-matter interactions in new materials and meta-architectures” (Warsaw, Poland) [21] 2020 Colloquium (Dept. of Physics) - From sunlight to fresh water: nanoscale photothermal effects for desalination, University of New Mexico, (Albuquerque NM, USA) [20] 2020 Invited Speaker, Symposium ‘Frontiers of Plasmonics and Nanophotonics’ - Nanoscale heating for macroscale challenges: light harvesting for water desalination, PQE (Physics of Quantum Electronics), (January, Snowbird UT, USA) [19] 2019 Seminar (Dept. of Mechanical Engineering) - Nanoscale photothermal effects for desalination, University of California San Diego, (San Diego CA, USA) [18] 2019 Colloquium (Dept. of Physics) – Thermoplasmonics and Nanoscale heating toward water desalination, University of North Texas (Denton TX, USA) [17] 2019, Colloquium (Dept. of Physics) – Photothermal Effects: from nanoscale heating to water desalination, Sam Houston State University, (Huntsville TX, USA) [16] 2019 - Invited Talk, Multiphysics modeling of photothermal systems: from nano- to macro- scale, Smalley Curl Institute – Rice University, (Houston TX, USA) [15] 2019 – Seminar (Dept. of Mechanical Engineering) – Photothermal effects: from nanoscale heating to water desalination, Rice University (Houston TX, USA) [14] 2019 Focus Session: Thermoplasmonics and Photo-thermal Applications - Photothermal epoxy curing with plasmonic nanoparticles: From modeling to experiments, META 2019 (July, Lisbon, Portugal) [13] 2019 Focus Session: Thermal-photonics for information and energy applications - Light, Heat, Water: from plasmonic particles to solar powered desalination, PIERS 2019 ( Rome, Italy) [12] 2019 Webinar: Modeling of Nanophotonics Enabled Solar Membrane Desalination, – to appear in IEEE Spectrum [11] 2019 - expected - Heat dissipation non linearities in metallic nanostructures, 6th Thermal Probe Workshop (March, Zurich, Switzerland) [10] 2018 - Heat Dissipation in Nanostructures: from plasmonic particles to Solar-Powered Desalination Device, Invited Speaker, COMSOL Days, (Houston TX, USA) [9] 2018 - Heat dissipation and hot carriers in nanostructures, Seminar Presenter, Berkeley Lab, (Berkeley CA, USA) [8] 2018 - Heat dissipation, hot carriers in nanostructures and Nanophotonic Distillation Systems, Seminar Presenter, Holosense, (Seattle WA, USA) [7] 2018 - Nanophotonics Enabled Solar Membrane Distillation: refining membrane distillation strategies, Invited Speaker, MRS Spring Meeting, (Phoenix AZ, USA) [6] 2018 - Heat dissipation in nanostructures: from plasmonic particles to solar powered distillation devices, Invited Speaker at Optical Science & Engineering seminar, The University of New Mexico, (2018, Albuquerque NM, USA) [5] 2017 - Induced Hot Carrier Generation, Invited Oral Presentation, SPIE Optics+Photonics, (San Diego, USA) [4] 2017 - Quantum Plasmonics, Invited Oral Presentation, SPIE Optics+Photonics, (2017, San Diego, USA) [3] 2017 -Nanoparticles induced light to vapor conversion for off-grid water purification: full multiphysics modeling, SPIE Optics+Photonics, Invited Oral Presentation, (San Diego, USA) [2] 2016 - High Temperature Nanoplasmonics, SPIE Optics+Photonics, (2016, San Diego, USA), Invited Oral Presentation, (San Diego, USA) [1] 2012 - SuperHydrophobic Surfaces towards Biomedical Applications, SPIE Optics+Photonics, Invited Oral Presentation (San Diego, USA)

PUBLICATIONS

FIRST/ CORRESPONDING AUTHOR [14] J. Cunha, T.-L. Guo, G. Della Valle, A. N. Koya, R. Proietti Zaccaria and A. Alabastri, Controlling Light, Heat, and Vibrations in Plasmonics and Phononics, Advanced Optical Materials, 2001225, (2020) [13] A. Hubarevich, J.-A. Huang, G. Giovannini, A. Schirato, Y. Zhao, N. Maccaferri, F. De Angelis, A. Alabastri* and D. Garoli*, λ-DNA through Porous Materials—Surface- Enhanced Raman Scattering in a Simple Plasmonic Nanopore, The Journal of Physical C, 124, 41, pp. 22663-22670, (2020) - *Corresponding Authors

[12] A. Alabastri, Flow-driven resonant energy systems, Physical Review Applied, 14, 034045, (2020) [11] A. Schirato, M. Maiuri, A. Toma, S. Fugattini, R. Proietti Zaccaria, P. Laporta, P. Nordlander, G. Cerullo, A. Alabastri* and G. Della Valle*, Transient optical symmetry breaking for ultrafast broadband dichroism in plasmonic metasurfaces, Nature Photonics, 14, 723-727 (2020) - *Corresponding Authors [10] A. Alabastri*, P. Dongare*, O. Neumann, J. Metz, I. Adebiyi, P. Nordlander and N. Halas, Resonant Energy Transfer Enhances Solar Thermal Desalination, Energy & Environmental Science, 13, pp. 968-976, (2020) - *Equal contribution [9] P. Dongare*, A. Alabastri*, O. Neumann, P. Nordlander and N. Halas, Solar thermal desalination as a nonlinear optical process, PNAS, 116(27), pp. 13182-13187 (2019) *Equal contribution [8] M. Magnozzi, R. Proietti Zaccaria, D. Catone, P. O’Keefe, A. Paladini, F. Toschi, A. Alabastri*, M. Canepa and F. Bisio*, Interband Transitions Are More Efficient Than Plasmonic Excitation in the Ultrafast Melting of Electromagnetically Coupled Au Nanoparticles, Journal of Physical Chemistry C, 123, 27, pp. 16943-16959, (2019) - *Corresponding Author [7] A. Alabastri*, M Malerba, E. Calandrini, A. Manjavacas, F. De Angelis, A. Toma, and R. Proietti Zaccaria*, Controlling the Heat Dissipation in Temperature-Matched Plasmonic Nanostructures, Nano Letters, 17(9), pp. 5472-5480, (2017) - *Corresponding Author [6] P. D. Dongare*, A. Alabastri*, S. Pedersen, K. R. Zodrow, N. J. Hogan, O. Neumann, J. Wu, T. Wang, A. Deshmukh, M. Elimelech, Q. Li, P. Nordlander and N. J. Halas, Nanophotonics-enabled solar membrane distillation for off-grid water purification, PNAS, 114(27), pp. 6936-6941 (2017) - *Equal contribution [5] A. Alabastri, X. Yang, A. Manjavacas, H. O. Everitt and P. Nordlander, Extraordinary Light-Induced Local Angular Momentum near Metallic Nanoparticles, ACS Nano, 10(4), pp. 4835-4846, (2016) [4] A. Alabastri*, A. Toma, M. Malerba, F. De Angelis and R. Proietti Zaccaria, High Temperature Nanoplasmonics: The Key Role of Nonlinear Effects, ACS Photonics, 2(1), pp. 115-120, (2015) - *Corresponding Author [3] M. Malerba*, A. Alabastri*, E. Miele, P. Zilio, M. Patrini, D. Bajoni, G. C. Messina, M. Dipalo, A. Toma, R. Proietti Zaccaria and F. De Angelis, 3D vertical nanostructures for enhanced infrared plasmonics, Scientific Reports, 5, 16436 (2015) - *Equal contribution [2] A. Alabastri*, S. Tuccio, A. Giugni, A. Toma, C. Liberale, G. Das, F. De Angelis, E. Di Fabrizio and R. Proietti Zaccaria*, Molding of plasmonic resonances in metallic nanostructures: dependence of the non-linear electric permittivity on system size and temperature, Materials, 6 (2013) - *Corresponding Author [1] A. Alabastri, A. Toma, C. Liberale, M. Chirumamilla, A. Giugni, F. De Angelis, G. Das, E. Di Fabrizio and R. Proietti Zaccaria, Interplay between electric and magnetic effect in adiabatic polaritonic systems, Optics Express, 21(6), pp. 7538-7548 (2013)

ADDITIONAL SELECTED [8] A. Mancini, V. Giliberti, A. Alabastri, E. Calandrini, F. De Angelis, D. Garoli and M. Ortolani, Nanoscale thermal gradients activated by antenna-enhanced molecular absorption in the mid-infrared, Applied Physics Letters, 114, 023105 (2019) ROLE: Conceived and developed an opto-thermal model to evaluate molecular absorption induced heat generation in comparison with plasmonic dissipation. Predicted large molecular related thermal gradients in nano-sized regions with applications in thermophoresis. [7] A. Roberts, J. Yang, M. Reish, A. Alabastri, N. J. Halas, P. Nordlander, H. Everitt, Plasmonic -based Epoxy Photocuring: a Deeper Look, Materials Today, 27, pp. 14-20 (2018) ROLE: Conceived and developed the calculation approach to explain the involved physical mechanisms. Supervised a graduate student for the model optimization. [6] A. Emboras, A. Alabastri, F. Ducry, B. Cheng, Y. Salamin, P. Ma, S. Andermatt, B. Baeuerle, A. Josten, C. Hafner, M. Luisier, P. Nordlander and J. Leuthold , Atomic Scale Photodetection enabled by a Memristive Junction, ACS Nano, 12(7), pp. 6706-6713 (2018) ROLE: Conceived, developed and optimized a multiphysics model used to interpret, explain and replicate experimental outcomes [5] C. I. Evans, P. Zolotavin, A. Alabastri, J. Yang, P. Nordlander, and D. Natelson, Quantifying Remote Heating from Propagating Surface Plasmon Polaritons, Nano Letters, 17(9), pp. 5646-5652, (2017) [4] P. Zolotavin, A. Alabastri, P. Nordlander and D. Natelson, Plasmonic Heating in Au Nanowires at Low Temperatures: The Role of Thermal Boundary Resistance, ACS Nano, 10(7), pp. 6972-6979, (2016) ROLE: Conceived, developed and optimized photo-thermal models used to interpret, explain and replicate experimental outcomes. [3] A. Giugni, B. Torre, A. Toma, M. Francardi, M. Malerba, A. Alabastri, R. Proietti Zaccaria, M. I. Stockman and E. Di Fabrizio, Hot-electron nanoscopy using adiabatic compression of surface , Nature Nanotechnology, 8, pp. 845-852, (2013) ROLE: Designed the plasmonic conical device for optimal adiabatic compression and coupling. Applied thermal calculations to estimate lattice temperature under operational conditions. [2] R. Proietti Zaccaria, A. Alabastri, F. De Angelis, G. Das, C. Liberale, A. Toma, A. Giugni, L. Razzari, M. Malerba, H. Bo Sun and E. Di Fabrizio, Fully analytical description of adiabatic compression in dissipative polaritonic structures, Physical Review B, 86, 035410, (2012) ROLE: developed model of adiabatic compression to investigate the presence of vortex-like Poynting vector field configurations near plasmonic nanotips. [1] M. Dal Maschio, D. Ghezzi, A. Alabastri, M. Brondi, S. Sulissato, R. Proietti Zaccaria, G. M. Ratto, E. Di Fabrizio, B. Guillaume, F.Benfenati, J. Assad, and L. Cancedda, High- performance and site-directed in utero electroporation by a triple-electrode probe, Nature Communications, 3,960, (2012) ROLE: reconstructed a 3D rat embryo brain from MRI scans. Optimized electric fields within brain cavities to guide transfected charged molecules and maximize their accumulation is target regions.

COMPLETE LIST 2020 [59] A. Emboras, A. Alabastri, P. Lehman, K. Portner, C. Weilenmann, P. Ma, B. Cheng, M. Lewerenz, E. Passerini, U. Koch, J. Aeschlimann, F. Ducry, J. Leuthold, M. Luisier, Opto-electronic memristors: Prospects and challenges in neuromorphic computing, Applied Physics Letters, 117, 230502, (2020) [58] J. Cunha, T.-L. Guo, G. Della Valle, A. N. Koya, R. Proietti Zaccaria and A. Alabastri, Controlling Light, Heat, and Vibrations in Plasmonics and Phononics, Advanced Optical Materials, 2001225, (2020) [57] J. Cunha, T.-L. Guo, Alessandro Alabastri and Remo Proietti Zaccaria, Tuning temperature gradients in subwavelength plasmonic nanocones with tilted illumination, Optics Letters, 45, pp. 5472-5475, (2020) [56] A. Hubarevich, J.-A. Huang, G. Giovannini, A. Schirato, Y. Zhao, N. Maccaferri, F. De Angelis, A. Alabastri* and D. Garoli*, λ-DNA through Porous Materials—Surface- Enhanced Raman Scattering in a Simple Plasmonic Nanopore, The Journal of Physical Chemistry C, 124, 41, pp. 22663-22670, (2020) - *Corresponding Authors [55] A. Alabastri, Flow-driven resonant energy systems, Physical Review Applied, 14, 034045, (2020) [54] A. Schirato, M. Maiuri, A. Toma, S. Fugattini, R. Proietti Zaccaria, P. Laporta, P. Nordlander, G. Cerullo, A. Alabastri* and G. Della Valle*, Transient optical symmetry breaking for ultrafast broadband dichroism in plasmonic metasurfaces, Nature Photonics, 14, 723-727 (2020) - *Corresponding Authors [53] T. K. Rogers, P. D. Dongare, A. Alabastri, N. J. Halas, J. Metz, J. Mathieu, P. Alvarez, L. Carter, M. S. Wong, R. Verduzco, Nanotechnology for Beyond Earth Water Treatment, International Conference on Environmental Systems - ICES (2020) [52] W. Dai, W. Liu, J. Yang, C. Xu, A. Alabastri, C. Liu, P. Nordlander, Z. Guan and H. Xu, Giant photothermoelectric effect in silicon nanoribbon photodetectors, Light: Science & Applications, 9, 120, (2020) [51] L. A. McCarthy, K. W. Smith, X. Lan, S. A. Hosseini jebeli, L. Bursi, A. Alabastri, W.-S. Chang, P. Nordlander and S. Link, Polarized evanescent waves reveal trochoidal dichroism, 117(28), PNAS, (2020) [50] J. Cunha, T-L. Guo, A. N. Koya, A. Toma, M. Prato, G. Della Valle, A. Alabastri and R. Proietti Zaccaria, Photoinduced Temperature Gradients in Sub‐Wavelength Plasmonic Structures: The Thermoplasmonics of Nanocones, Advanced Optical Materials, 2000568, (2020) [49] A. Alabastri*, P. Dongare*, O. Neumann, J. Metz, I. Adebiyi, P. Nordlander and N. Halas, Resonant Energy Transfer Enhances Solar Thermal Desalination, Energy & Environmental Science, 13, pp. 968-976 (2020) *Equal Contribution [48] D. Garoli, A. Schirato, G. Giovannini, S. Cattarin, P. Ponzellini, E. Calandrini, R. Proietti Zaccarica, F. D’Amico, M. Pachetti, W. Yang, H.J. Jin, R. Krahne and A. Alabastri, Galvanic Replacement Reaction as a Route to Prepare Nanoporous Aluminum for UV Plasmonics, Nanomaterials, 10(1), 102 (2020) 2019 [47] P. Ponzellini, G. Giovannini, S. Cattarin, R. Proietti Zaccaria, S. Marras, M. Prato, A. Schirato, F. D’Amico, E. Calandrini, F. De Angelis, W. Yang, A. Alabastri and D. Garoli, Metallic Nanoporous Aluminum-Magnesium Alloy for UV Enhanced Spectroscopy, Journal of Physical Chemistry C, 123,33, pp. 20287-20296 (2019) [46] P. Dongare*, A. Alabastri*, O. Neumann, P. Nordlander and N. Halas, Solar thermal desalination as a nonlinear optical process, PNAS, 116(27), pp. 13182-13187 (2019) *Equal contribution [45] L. Zhou, D. Swearer, H. Robatjazi, A. Alabastri, P. Christopher, E. Carter, P. Nordlander, N. Halas, Response to Comment on “Quantifying hot carrier and thermal contributions in plasmonic photocatalysis”, Science, 364(6439), (2019) [44] M. Magnozzi, R. Proietti Zaccaria, D. Catone, P. O’Keefe, A. Paladini, F. Toschi, A. Alabastri*, M. Canepa and F. Bisio*, Interband Transitions Are More Efficient Than Plasmonic Excitation in the Ultrafast Melting of Electromagnetically Coupled Au Nanoparticles, Journal of Physical Chemistry C, 123, 27, pp. 16943-16959, (2019) - *Corresponding Author [43] A. Mancini, V. Giliberti, A. Alabastri, E. Calandrini, F. De Angelis, D. Garoli and M. Ortolani, Nanoscale thermal gradients activated by antenna-enhanced molecular absorption in the mid-infrared, Applied Physics Letters, 114, 023105 (2019) [42] M. Villani, V. Onesto, M. L. Coluccio, I. Valpapuram, R. Majewska, A. Alabastri, E. Battista, A. Schirato, D. Calestani, N. Coppede, A. Zappettini, F. Amato, E. Di Fabrizio and F. Gentile, Transforming diatomaceous earth into sensing devices by surface modification with gold nanoparticles, Micro and Nano Engineering, 2, pp. 29-34 (2019) [41] B, Della Ventura, M. Gelzo, E. Battista, A. Alabastri, A. Schirato, G. Castaldo, G. Corso, F. Gentile and R. Velotta, Biosensor for point-of-care analysis of immunoglobulins in urine by metal enhanced fluorescence from gold nanoparticles, ACS Applied Materials&Interfaces, 11(4), pp. 3753-3762 (2019) 2018 [40] A. Roberts, J. Yang, M. Reish, A. Alabastri, N. J. Halas, P. Nordlander, H. Everitt, Plasmonic Nanoparticle-based Epoxy Photocuring: a Deeper Look, Materials Today, 27, pp. 14-20 (2018) [39] K. W. Smith, L. A. McCarthy, A. Alabastri, L. Bursi, W. Chang, P. Nordlander and S. Link, Exploiting Evanescent Field Polarization for Giant Chiroptical Modulation from Achiral Gold Half-Rings, ACS Nano, 12(11), pp. 11657-11663 (2018) [38] D. Catone, A. Ciavardini, L. Di Mario, A. Paladini, F. Toschi, A. Cartoni, I. Fratoddi, I. Venditti, A.Alabastri, R. Proietti Zaccaria and P. O’Keefe, Plasmon Controlled Shaping of Metal Nanoparticle Aggregates by Femtosecond Laser-Induced Melting, The Journal of Physical Chemistry Letters, 9, pp. 5002-5008 (2018) [37] M. Dipalo, G. Melle, L. Lovato, A. Jacassi, F. Santoro, V. Caprettini, A. Schirato, A.Alabastri, D. Garoli, G. Bruno, F. Tantussi and F. De Angelis, Plasmonic meta- electrodes allow intracellular recordings at network level on high-density CMOS- multi-electrode arrays, Nature Nanotechnology, 13, pp. 965-971, (2018) [36] A. Emboras, A. Alabastri, F. Ducry, B. Cheng, Y. Salamin, P. Ma, S. Andermatt, B. Baeuerle, A. Josten, C. Hafner, M. Luisier, P. Nordlander and J. Leuthold , Atomic Scale Photodetection enabled by a Memristive Junction, ACS Nano, 12(7), pp. 6706-6713 (2018) [35] S. Sanders, A. May, A. Alabastri and A. Manjavacas , Extraordinary Enhancement of Quadrupolar Transitions Using Nanostructured Graphene, ACS Photonics, 5 (8), pp. 3282–3290 (2018) [34] A. Mancini, V. Giliberti, A. Alabastri, E. Calandrini, F. De Angelis, D. Garoli and M. Ortolani, Thermoplasmonic Effect of Surface-Enhanced Infrared Absorption in Vertical Nanoantenna Arrays, Journal of Physical Chemistry C, 122 (24), pp. 13072- 13081 (2018) [33] V. Onesto, M. Villani, M. L. Coluccio, R. Majewska, A. Alabastri, E. Battista, A. Schirato, D. Calestani, N. Coppede, M. Cesarelli, F. Amato, E. Di Fabrizio and F. Gentile, Silica diatom shells tailored with Au nanoparticles enable sensitive analysis of molecules for biological, safety and environment applications, Nanoscale Research Letters, 13 (94) (2018) 2017 [32] L. Dong, X. Yang, C. Zhang, B. Cerjan, L. Zhou, M. Lun Tseng, Y. Zhang, A. Alabastri, Peter Nordlander, and Naomi J. Halas, Nanogapped Au Antennas for Ultrasensitive Surface-Enhanced Infrared Absorption Spectroscopy, Nano Letters, 17(9), pp. 5768- 5774, (2017) [31] C. I. Evans, P. Zolotavin, A. Alabastri, J. Yang, P. Nordlander, and D. Natelson, Quantifying Remote Heating from Propagating Surface Plasmon Polaritons, Nano Letters, 17(9), pp. 5646-5652, (2017) [30] A. Alabastri, M Malerba, E. Calandrini, A. Manjavacas, F. De Angelis, A. Toma, and R. Proietti Zaccaria, Controlling the Heat Dissipation in Temperature-Matched Plasmonic Nanostructures, Nano Letters, 17(9), pp. 5472-5480, (2017) [29] W. Raja, M. Schmid, A. Toma, H. Wang, A. Alabastri and R. Proietti Zaccaria, Perovskite Nanopillar Array Based Tandem Solar Cell, ACS Photonics, 4(8), pp. 2025- 2035, (2017) [28] R. Zhang, L. Bursi, J. D. Cox, Y. Cui, C. M. Krauter, A. Alabastri, A. Manjavacas, A. Calzolari, S. Corni, E. Molinari, E. A. Carter, F. J. García de Abajo, H. Zhang and P. Nordlander, How To Identify Plasmons from the Optical Response of Nanostructures, ACS Nano, 11(7), pp. 7321-7335, (2017) [27] P. D. Dongare*, A. Alabastri*, S. Pedersen, K. R. Zodrow, N. J. Hogan, O. Neumann, J. Wu, T. Wang, A. Deshmukh, M. Elimelech, Q. Li, P. Nordlander and N. J. Halas, Nanophotonics-enabled solar membrane distillation for off-grid water purification, PNAS, 114(27), pp. 6936-6941 (2017), *Equal contribution [26] H. Robatjazi, H. Zhao, D. F. Swearer, N. J. Hogan, L. Zhou, A. Alabastri, M. J. McClain, P. Nordlander and N. J. Halas, Plasmon-induced selective carbon dioxide conversion on earth-abundant aluminum-cuprous oxide antenna-reactor nanoparticles, Nature Communications, 8, 27, (2017) [25] S. Dante, A. Petrelli, E. M. Petrini, R. Marotta, A. Maccione, A. Alabastri, A. Quarta, F. De Donato, T. Ravasenga, A. Sathya, R. Cingolani, R. P. Zaccaria, L. Berdondini, A. Barberis and T. Pellegrino, Selective Targeting of Neurons with Inorganic Nanoparticles: Revealing the Crucial Role of Nanoparticle Surface Charge, ACS Nano, 11(7), pp. 6630-6640, (2017) [24] M. L. Coluccio, A. Alabastri, S. Bonanni, R. Majewska, E. Dattola, M. Barberio, P. Candeloro, G. Perozziello, V. Mollace, E. Di Fabrizio, and F. Gentile, Surface enhanced thermo lithography, Microelectronic Engineering, Vol. 174, pp. 52-58, (2017) [23] E. Battista, M. L. Coluccio, A. Alabastri, M. Barberio, F. Causa, P. A. Netti, E. Di Fabrizio, and F. Gentile, Metal enhanced fluorescence on super-hydrophobic clusters of gold nanoparticles, Microelectronic Engineering, Vol. 175, pp. 7-11, (2017) 2016 [22] O. Neuamnn, A. D. Neumann, S. Tian, C. Thibodeaux, S. Shubhankar, J. Mueller, E. Silva, A. Alabastri, S. Whaley Bishnoi, P. Nordlander and N. J. Halas, Combining Solar Steam Processing and Solar Distillation for Fully Off-grid Production of Cellulosic Bioethanol, ACS Energy Letters, 2(1), pp. 8-13, (2016) [21] P. Zolotavin, A. Alabastri, P. Nordlander and D. Natelson, Plasmonic Heating in Au Nanowires at Low Temperatures: The Role of Thermal Boundary Resistance, ACS Nano, 10(7), pp. 6972-6979, (2016) [20] H. Wang, H. Wang, A. Bozzola, A. Toma, S. Panaro, W. Raja, A.Alabastri, L. Wang, Q. Chen, H. Xu, F. De Angelis, H. Sun and R. Proietti Zaccaria, Dynamics of Strong Coupling between J-aggregates and Surface Plasmon Polaritons in Subwavelength Hole Arrays, Advanced Functional Materials, 26(34), pp. 6198-6205, (2016) [19] G. Messina, M. Sinatra, V. Bonanni, R. Brescia, A. Alabastri, F. Pineider, G. Campo, C. Sangregorio, G. Li-Destri, G. Sfuncia, G. Marletta, M. Condorelli, R. Proietti Zaccaria, F. De Angelis and G. Compagnini, Tuning the Composition of Alloy Nanoparticles Through Laser Mixing: The Role of Surface Plasmon Resonance, The Journal of Physical Chemistry C, 120(23), pp. 12810-12818, (2016) [18] A. Alabastri, X. Yang, A. Manjavacas, H. O. Everitt and P. Nordlander, Extraordinary Light-Induced Local Angular Momentum near Metallic Nanoparticles, ACS Nano, 10(4), pp. 4835-4846, (2016) [17] W. Raja, A. Bozzola, P. Zilio, E. Miele, S. Panaro, H. Wang, A. Toma, A. Alabastri, F. De Angelis and R. Proietti Zaccaria, Broadband absorption enhancement in plasmonic -based ultrathin microcrystalline-Si solar cells, Nature Scientific Reports, 6, 24539 (2016) 2015 [16] M. Malerba*, A. Alabastri*, E. Miele, M. Patrini, D. Bajoni, P. Zilio, G. Messina, A. Toma, M. Dipalo, R. Proietti Zaccaria and F. De Angelis, 3D vertical nanostructures for enhanced infrared plasmonics, Nature Scientific Reports, 5, 16436, (2015) *Equal Contribution [15] J. Buencuerpo, J. M. Llorens, P. Zilio, W. Raja, J. Cunha, A. Alabastri, R. Proietti Zaccaria, A. Martì and T. Versloot, Light- trapping in photon enhanced thermionic emitters, Optics Express, 23(19), pp. A1220-A1235 (2015) [14] A. Alabastri, A. Toma, M. Malerba, F. De Angelis and R. Proietti Zaccaria, High Temperature Nanoplasmonics: The Key Role of Nonlinear Effects, ACS Photonics, 2(1), pp. 115-120, (2015) [13] S. Goriparti, E. Miele, M. Prato, A. Scarpellini, S. Marras, S. Monaco, A. Toma, G. C. Messina, A. Alabastri, F. De Angelis, L. Manna, C. Capiglia and R. Proietti Zaccaria, Direct Synthesis of Carbon-Doped TiO2 –Bronze Nanowires as Anode Materials for High Performance Lithium-Ion Batteries, ACS Applied Materials & Interfaces, 7(45), pp. 25139-25146, (2015) 2014 [12] F. Bisio, R. Proietti Zaccaria, R. Moroni, G. Maidecchi, A. Alabastri, G. Gonella, A. Giglia, L. Andolfi, S. Nannarone, L. Mattera, M. Canepa, Pushing the High-Energy Limit of Plasmonics, ACS Nano, 8(9), pp. 9239-9247, (2014) [11] S. Tuccio, L. Razzari, A. Alabastri, A. Toma, C. Liberale, F. De Angelis, P. Candeloro, G. Das, A. Giugni, E. Di Fabrizio and R. Proietti Zaccaria, Direct determination of the resonant properties of metallic conical nanoantennas, Optics Letters, 39, pp. 571- 573 (2014) 2013 [10] A. Alabastri, S. Tuccio, A. Giugni, A. Toma, C. Liberale, G. Das, F. De Angelis, E. Di Fabrizio and R. Proietti Zaccaria, Molding of plasmonic resonances in metallic nanostructures: dependence of the non-linear electric permittivity on system size and temperature, Materials, 6(11), pp. 4879-4910, (2013) [9] A. Giugni, B. Torre, A. Toma, M. Francardi, M. Malerba, A. Alabastri, R. Proietti Zaccaria, M. I. Stockman and E. Di Fabrizio, Hot-electron nanoscopy using adiabatic compression of surface plasmons, Nature Nanotechnology, 8, pp. 845-852, (2013) [8] G. Das, M. Chirumamilla, A. Gopalakrishnan, A. Toma, R. Proietti Zaccaria, A. Alabastri and E. Di Fabrizio, Plasmon based biosensor for distinguishing different peptides mutation states, Nature Scientific Reports, 3, 1792, (2013) [7] A. Alabastri, A. Toma, C. Liberale, M. Chirumamilla, A. Giugni, F. De Angelis, G. Das, E. Di Fabrizio and R. Proietti Zaccaria, Interplay between electric and magnetic effect in adiabatic polaritonic systems, Optics Express, 21(6), pp. 7538-7548, (2013) 2012 [6] R. Proietti Zaccaria, A. Alabastri, F. De Angelis, G. Das, C. Liberale, A. Toma, A. Giugni, L. Razzari, M. Malerba, H. Bo Sun and E. Di Fabrizio, Fully analytical description of adiabatic compression in dissipative polaritonic structures, Physical Review B, 86, 035410, (2012) [5] M. Dal Maschio, D. Ghezzi, A. Alabastri, M. Brondi, S. Sulissato, R. Proietti Zaccaria, G. M. Ratto, E. Di Fabrizio, B. Guillaume, F.Benfenati, J. Assad, and L. Cancedda, High- performance and site-directed in utero electroporation by a triple-electrode probe, Nature Communications, 3, 960, (2012) [4] A. Giugni, G. Das, A. Alabastri, R. Proietti Zaccaria, M. Zanella, I. Franchini, E. Di Fabrizio and R. Krahne, Optical phonon modes in ordered core-shell CdSe/CdS nanorod arrays, Physical Review B, 85, 115413, (2012) [3] M. Malerba, A. Alabastri, G. Cojoc, M. Francardi, M. Perrone, R. Proietti , F. De Angelis E. Di Fabrizio, Optimization of Surface Plasmon Polariton generation in a nanocone through linearly polarized laser beams, Microelectronic Engineering, 97, pp. 204-207, (2012) [2] Proietti Zaccaria R, De Angelis F, Toma A, Razzari L, Alabastri A, Das G, Liberale C, and Di Fabrizio E, Surface plasmon polariton compression through radially and linearly polarized source, Optics Letters, 37, pp. 545-547, (2012) 2011 [1] R. Malureanu, A. Alabastri., W. Cheng, R. Kiyan, B. Chichkov, A. Andryieuski, A. Lavrinenko, Enhanced broadband optical transmission in metallized woodpiles, Applied Physics A, 103(3), pp. 749-753, (2011)

ADDITIONAL CONFERENCE ORALS AND POSTERS [16] A. Alabastri, A. Emboras, J. Leuthold, P. Nordlander, Optically controlled electrical switching by moving atoms, GRC Plasmonics & Nanophotonics, Poster, (2018, Sunday River, USA) [15] A. Alabastri, M Malerba, E. Calandrini, A. Manjavacas, F. De Angelis, A. Toma, and R. Proietti Zaccaria, Heat dissipation control in plasmonic systems, SPIE Optics+Photonics, (2017, San Diego, USA) [14] A. Alabastri, M. Malerba, E. Calandrini, A. Toma, R. Proietti Zaccaria, Thermo- plasmonic: playing with temperature at the nanoscale, Proc. SPIE, Vol. 10102, Conference Presentation, (2017, San Francisco, USA), presented by R. Proietti Zaccaria [13] C. Evans, P. Zolotavin, A. Alabastri, P. Nordlander, D. Natelson, Remote heating in Au bowtie constrictions by propagating plasmons, APS March Meeting, Conference Presentation, (2017, New Orleans, USA), presented by co-author [12] A. Alabastri, A. Toma, M. Malerba, R. Proietti Zaccaria, Temperature Modulated Nanoplasmonics, Progress in Electromagnetic Research Symposium (PIERS), (2016, Shanghai, China), presented by R. Proietti Zaccaria [11] R. Proietti Zaccaria, F. Bisio, A. Alabastri, R. Moroni, A. Giglia, S. Nannarone, L. Mattera, M. Canepa, Beyond the visible limit: plasmonics at the UV, SPIE Optics+Photonics, (2016, San Diego, USA), Oral Presentation, (2016, San Diego, USA), presented by R. Proietti Zaccaria [10] A. Alabastri, X. Yang, A. Manjavacas, H. O. Everitt, P. Nordlander, Extraordinary local angular momentum near metallic nanoparticles, SPIE Optics+Photonics, Oral Presentation, (2016, San Diego, USA) [9] A. Alabastri, X. Yang, A. Manjavacas, H. O. Everitt, P. Nordlander, Extraordinary Local Angular Momentum near Plasmonic Nanoparticles, GRC Plasmonics & Nanophotonics, Poster, (2016, Sunday River, USA) [8] A. Alabastri, F. De Angelis, R. Proietti Zaccaria, Heating processes in plasmonic resonances: a non-linear temperature dependent permittivity model, SPIE Optics+Photonics, Oral Presentation, (2014, San Diego, USA) [7] A. Alabastri, A. Toma, A. Giugni, B. Torre, M. Malerba, E. Miele, F. De Angelis, C. Liberale, G. Das, E. Di Fabrizio, R. Proietti Zaccaria, The magic of nanoplasmonics: from superhydrophobic and 3D suspended devices for SERS/TERS-like applications to hot-electrons based nanoscopy , SPIE Photonics Europe, (2014, Brussels, Belgium) [6] A. Alabastri, S. Tuccio, F. De Angelis and R. Proietti Zaccaria, Molding of plasmonic resonances: a non-linear temperature dependent permittivity model, Workshop on Surface Plasmons, Metamaterials and (PLASENHCAT2013), Oral Presentation, (2013, Houston, USA) [5] J. Szczurkowska, M. Dal Maschio, A. W. Cwetsch, D. Ghezzi, G. Bony, A. Alabastri, R. P. Zaccaria, E. Di Fabrizio, G. M. Ratto, L. Cancedda, Increased performance in genetic manipulation by modeling the dielectric properties of the rodent brain, Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS, pp. 1615-1628 (2013), presented by J. Szczurkowska [4] A. Giugni, A. Saeed, A. Toma, A. Alabastri, H. Li, E. Di Fabrizio and R. Krahne, Coupling colloidal nanocrystal emission to surface plasmons propagating in metallic nanowire structures, META ’13, the 4th International Conference on Metamaterials, Photonic Crystals and Plasmonics, Oral Presentation, (2013, Sharjah, UAE), presented by R. Krahne [3] S. Tuccio and A. Alabastri, Scaling Resonances from Radio Antennas to Metallic Nanorods, Workshop on Nanophotonics, International Centre for Theoretical Physics (ICTP), Poster Session, (2012, Trieste, Italy) [2] A. Alabastri, R. Krahne, A. Giugni, G. Das, R. P. Zaccaria, M. Zanella, I. Franchini, and E. di Fabrizio, Super-lattice Effects in Ordered Core-shell Nanorod Arrays Detected by , European COMSOL Conference Stuttgart, Paper and Oral presentation (2011, Stuttgart, Germany) [1] Andryieuski A, Malureanu R, Alabastri A, Lavrinenko A. V., Bulk metamaterials: Design, fabrication and characterization, 3rd ICTON Mediterranean Winter Conference, Paper, (2009, Angers, France), presented by R. Malureanu

BOOK CHAPTERS [3] R. Proietti Zaccaria, A. Alabastri, A. Toma, G. Das, A. Giugni, S. Tuccio, S. Panaro, M. Chirumamilla, A. Gopalakrishnan, H. Li, A. Saeed, H. Li, R. Krahne, and E. Di Fabrizio, “Plasmonic Nanostructures for Nanoscale Energy Delivery and Biosensing: Design Fabrication and Characterization” in Singular and Chiral Nanoplasmonics, Edited by Pan Stanford Publishing, (2014) [2] F Gentile, ML Coluccio, A Toma, A Alabastri, R Proietti Zaccaria, G Das, F De Angelis, P Candeloro, C Liberale, G Perozziello, L Tirinato, M Leoncini, E Di Fabrizio, “Plasmonics and Super-Hydrophobicity: A New Class of Nano-Bio-Devices” in Plasmonics: Theory and Applications, Edited by Springer Netherlands, (2013) [1] Toma, R. Proietti Zaccaria, R. Krahne, A. Alabastri, M. L. Coluccio, G. Das, C. Liberale, F. De Angelis, M. Francardi, F. Mecarini, F. Gentile, A. Accardo, L. Manna, E. Di Fabrizio, “Nanostructures for Photonics” in Encyclopedia of Nanotechnology, Edited by Springer, (2012)