th

JUNE 22ND – JUNE 25TH, 2014 University of Pennsylvania Philadelphia, PA USA Program Book Welcome

John Crocker Kate Stebe Arjun G. Yodh

Dear Colleagues,

It is our tremendous pleasure to welcome you to the 88th ACS Colloids and Surface Symposium. At the University of Pennsylvania, in the LRSM, the School of Arts and Sciences and in the School of Engineering and Applied Science, we have a large ® cohort of faculty, students and postdocs who work synergistically in this fi eld. We are all particularly excited to serve as your hosts because of our love of the subject and of you, the global research community in the fi eld.

The program for the conference includes 2 plenaries, 47 keynote and invited talks, and 678 contributed talks and posters from 615 researchers working in leading institutes around the globe - drawn from 28 countries! We are sure that you will fi nd the caliber of the talks and the scientifi c interactions stimulating over the coming days.

So we bid you welcome to the conference, to the campus, and to the City of Philadelphia.

John C. Crocker Kathleen J. Stebe Arjun G. Yodh Symposium co-chairs

2 3 Table of Contents

Welcome Message 3

Table of Contents 5

Organizing Committee 6

Symposium Committees & 8 Support Staff

Program at a Glance 11

Keynote & Invited Speakers 21 at a Glance

Symposium Sponsors 25

Symposium Exhibitors 28

MRSEC Sponsors 30

Plenary & Award Lectures 33

Technical Program 39

Author Index 206

Maps & Floor Plans 225

4 5 Emulsions, Bubbles and Foams ACS 2014 Colloid & Surface Doug Durian, University of Pennsylvania Science Symposium Jasna Brujic, New York University Environmental Science Organizing Committee Daniel Strongin, Temple University Howard Fairbrother, Johns Hopkins University Symposium Co-Chairs: General Papers John Crocker Joelle Frechette, Johns Hopkins University Professor of Chemical and Biomolecular Engineering Mike Bevan, Johns Hopkins University Kate Stebe Richer & Elizabeth Goodwin Professor of Chemical Glassy and Jammed Systems and Biomolecular Engineering, Deputy Dean for Rob Riggleman, University of Pennsylvania Research, School of Engineering and Applied Science Andrea Liu, University of Pennsylvania Arjun Yodh Eric Weeks, Emory University James M. Skinner Professor of Science, Department of Physics and Astronomy, and Director of The Laboratory Microfl uidics for Research on the Structure of Matter (LRSM) Paulo Arratia, University of Pennsylvania Kevin Turner, University of Pennsylvania

Sessions and Coorganizers Molecular Self-Assembly Dan Hammer, University of Pennsylvania Active Colloids Darrin Pochan University of Delaware Zvonimir Dogic, Brandeis University Christina Marchetti, Syracuse University Particles in interfaces, fi elds and liquid crystals Tony Dinsmore, U. Massachusetts Amherst Biocolloids Chris Santangelo, U. Massachusetts Amherst Dennis Discher, University of Pennsylvania Mohamed Gharbi, University of Pennsylvania Michael Rubinstein, UNC Chapel Hill Patchy and Janus Particles Biointerfaces Daeyeon Lee, University of Pennsylvania Ravi Radakrishnan, University of Pennsylvania Alberto Striolo, University College London Tobias Baumgart, University of Pennsylvania Rheology and Dynamics Colloidal and Surface Forces Chinedum Osuji, Yale University Eric Furst, University of Delaware Kelly Schultz, Lehigh University Ray Dagastine, University of Melbourne Wetting and Adhesion Directed Assembly Shu Yang, University of Pennsylvania Cherie Kagan, University of Pennsylvania Eric Dufresne, Yale University Vinothan Manoharan, Harvard University Poster Session Electrokinetics Ilona Kretzschmar, City College New York Darrell Velegol, Penn State University Raymond Tu, City College New York Aditya Khair, Carnegie Mellon University Valeria Garbin, Imperial College London Lorenzo Botto, Queen Mary Univ. of London

6 7 Symposium Committees & Support Staff

ACS Division of Colloid and Surface Science, Symposium Committee

Mike Bevan (chair), Johns Hopkins University Ilona Kretzschmar, City College of New York Joelle Frechette, Johns Hopkins University

LaMer Award Committee

Daeyeon Lee (Chair) - University of Pennsylvania Joelle Frechette - Johns Hopkins University Amanda Haes - University of Iowa Matthew Helgeson - UC Santa Barbara

Unilever Award Committee

P. Somasundaran (Chair) - Columbia University K.P. Ananthapadmanabhan - Unilever Ray Farinato - Cytec Nicholas L. Abbott - University of Wisconsin Julian Eastoe - University of Bristol Patricia Aikens - BASF

Symposium Support Staff

Exhibitor and Sponsor Coordination: Jim McGonigle and Dorothea Coleman

Event Planning: Jim McGonigle, Dorothea Coleman & Caitlin Druding

Symposium Logistics, Registration and Housing: Caitlin Druding and Penn Conference Services

Program Booklet, Website and Promotional Materials: Felice Macera

Technical Program Support and Website: Megan Illig and the OASIS team at Coe Truman Technologies, Inc.

8 9 Program at a Glance

10 11 SUNDAY, 22 JUNE 2014 MONDAY, 23 JUNE 2014

Meeting Registration Houston Hall LUNCH: 12:10 – 1:30 PM Houston Bodek (2:00 to 6:00 PM) (box lunches) and Hall of Flags

Welcome Reception Singh Center for (5:30 to 7:30 PM) Nanotechnology

TECHNICAL SESSIONS LOCATION MONDAY, 23 JUNE 2014 MON (1:30PM to 3:10 PM) Active Colloids 2: Rods and liquid DRL A6 Opening & Welcome: Eduardo Glandt Irvine Auditorium crystals Plenary 1: David Weitz Biocolloids 2: Interactions I Houston Ben (8:10 to 9:20 AM) Franklin Coffee Break Houston Bodek Biointerfaces 2: Amphiphile Biophysics Houston Class (9:20 to 9:50 AM) and Hall of Flags of ‘49 & DRL Lobby Colloidal and Surface Forces 2: kT College Hall 200 Interactions TECHNICAL SESSIONS LOCATION MON (9:50AM to 12:10 PM) Directed Assembly 2: Targeted Meyerson B1 assembly Active Colloids 1: Spherical particles I DRL A6 Electrokinetics: General DRL A5 Biocolloids 1: Proteins Houston Ben Franklin Emulsions, Bubbles and Foams 2: DRL A1 Dynamical evolution of foams and Biointerfaces 1: Engineered Interfaces Houston Class emulsions of ‘49 Environmental Science 2 Houston Golkin Colloidal and Surface Forces 1: College Hall 200 Entropic Systems General Papers 2: Assembly Towne Heilmeier Directed Assembly 1: DNA-mediated Meyerson B1 Glasses/Jamming 2: Vibrations/ Skirkanich Berger assembly Confi nement Emulsions, Bubbles and Foams 1: DRL A1 Molecular Self-Assembly 2 Cohen Terrace Mechanical responses of foams, Particles in interfaces, fi elds and liquid Irvine Amado elastomers and interfaces crystals 2 Environmental Science 1 Houston Golkin Patchy and Janus Particles 2: Patchy Irvine Café ‘58 General Papers 1: Wetting Towne Heilmeier and Janus Particles as Functional Materials Glasses/Jamming 1: Rheology Skirkanich Berger Rheology and Dynamics 2 DRL A7 Microfl uidics: Drops & Bubbles DRL A5 Wetting and Adhesion 2: Wetting on Levine Wu and Molecular Self-Assembly 1 Cohen Terrace Structured Surfaces Chen Particles in interfaces, fi elds and liquid Irvine Amado crystals 1 Patchy and Janus Particles 1: Synthesis Irvine Café ‘58 and Assembly of Patchy Particles Rheology and Dynamics 1 DRL A7 Wetting and Adhesion 1: Levine Wu and Superhydrophobic and Chen Superoleophobic Surfaces 12 13 MONDAY, 23 JUNE 2014 TUESDAY, 24 JUNE 2014

COFFEE BREAK Houston Bodek Plenary 2: Daan Frenkel Irvine Auditorium (3:10 to 3:40 PM) and Hall of Flags (8:20 to 9:20 AM) & DRL Lobby

TECHNICAL SESSIONS LOCATION Coffee Break Houston Bodek MON (3:40PM to 5:20 PM) (9:20 to 9:50 AM) and Hall of Flags & DRL Lobby Active Colloids 3: Spherical particles II DRL A6 Biocolloids 3: Interactions II Houston Ben Franklin TECHNICAL SESSIONS LOCATION TUE (9:50AM to 12:10 PM) Biointerfaces 3: Probes and Houston Techniques Class of ‘49 Active Colloids 4: Biological swimmers DRL A6 Colloidal and Surface Forces 3: Films College Hall 200 Biocolloids 4: Self-Assembly Houston Ben Franklin Directed Assembly 3: Self-Assembly Meyerson B1 Biointerfaces 4: Mechanics I Houston Electrokinetics: Polarizable particles DRL A5 Class of ‘49 and membranes Colloidal and Surface Forces 4: College Hall 200 Emulsions, Bubbles and Foams 3: DRL A1 Bubbles and Dynamics Tailoring emulsion stability with particles Directed Assembly 4: Evaporative and Meyerson B1 Environmental Science 3 Houston Golkin convective assembly General Papers 3: Interactions Towne Heilmeier Emulsions, Bubbles and Foams DRL A1 Glasses/Jamming 3: Vibrations/active Skirkanich Berger 4: Biomimetic and biocompatible materials emulsions and foams Molecular Self-Assembly 3 Cohen Terrace Environmental Science 4 Houston Golkin Particles in interfaces, fi elds and liquid Irvine Amado General Papers 4: Particles and Towne Heilmeier crystals 3 Aggregation Patchy and Janus Particles 3: Irvine Café ‘58 Glasses/Jamming 4: Foams, Skirkanich Berger Assembly and Phase Behavior of emulsions, colloids, etc. Patchy Colloids Microfl uidics: Sorting, Self-Assembly DRL A5 Rheology and Dynamics 3 DRL A7 and Transport Wetting and Adhesion 3: Wetting and Levine Molecular Self-Assembly 4 Cohen Terrace Condensation Wu and Chen Particles in interfaces, fi elds and liquid Irvine Amado crystals 4 POSTER SESSIONS LOCATION Patchy and Janus Particles 4: Irvine Café ‘58 MON (5:30PM to 7:30 PM) Synthesis and Assembly of Patchy Poster Session: Bio-Colloids Houston Particles Bodek Lounge Rheology and Dynamics 4 DRL A7 Poster Session: Fundamentals of Houston Wetting and Adhesion 4: Interfacial Levine Colloids Hall of Flags Tension, Adhesion and Friction Wu and Chen Poster Session: Fundamentals of Houston Interfaces Bodek Lounge Poster Session: Materials, Environ- Houston ment, and Energy Applications Hall of Flags

14 15 TUESDAY, 24 JUNE 2014 TUESDAY, 24 JUNE 2014

LUNCH: 12:10 – 1:30 PM Houston Bodek TECHNICAL SESSIONS LOCATION (box lunches) and Hall of Flags TUE (3:40PM to 5:20 PM) Active Colloids 6: External fi elds DRL A6 TECHNICAL SESSIONS LOCATION Biocolloids 6: Mostly Contrast Agents Houston Franklin TUE (1:30PM to 3:10 PM) Biointerfaces 6: Interfacial binding Houston Active Colloids 5: New mechanisms DRL A6 phenomena Class of ‘49 Biocolloids 5: Contrast Agents Houston Franklin Colloidal and Surface Forces 6: College Hall 200 Biointerfaces 5: Mechanics II Houston Nanoparticles Class of ‘49 Directed Assembly 6: Field-assisted Meyerson B1 Colloidal and Surface Forces 5: College Hall 200 assembly I Electrostatics Electrokinetics: General DRL A5 Directed Assembly 5: Co-assembly Meyerson B1 Emulsions, Bubbles and Foams 6: DRL A1 Electrokinetics: Drops and Particles DRL A5 Fabrication of foam/emulsion-templated materials Emulsions, Bubbles and Foams 5: DRL A1 Control of surface active species at Environmental Science 6 Houston Golkin interfaces General Papers 6: Complex Mixtures Towne Heilmeier Environmental Science 5 Houston Golkin Glasses/Jamming 6: Shear thickening Skirkanich General Papers 5: Particles at Towne Heilmeier and mechanical responses Berger Interfaces Molecular Self-Assembly 6 Cohen Terrace Glasses/Jamming 5: Theories and Skirkanich Berger Particles in interfaces, fi elds and liquid Irvine Amado Models crystals 6 Molecular Self-Assembly 5 Cohen Terrace Patchy and Janus Particles 6: Irvine Café ‘58 Particles in interfaces, fi elds and liquid Irvine Amado Rheology and Dynamics 6 DRL A7 crystals 5 Wetting and Adhesion 6: Antifouling and Levine Patchy and Janus Particles 5: Irvine Café ‘58 Measurement Wu and Chen Patchy and Janus Particles as Solid Surfactants Rheology and Dynamics 5 DRL A7 Unilever Award Lecture Irvine Auditorium Wetting and Adhesion 5: Capillary Levine (5:30 to 6:30 PM) Wetting and Adhesion Wu and Chen

COFFEE BREAK Houston Bodek SYMPOSIUM BANQUET PENN MUSEUM (3:10 to 3:40 PM) and Hall of Flags & DRL Lobby Reception: 6:30 – 7:30 PM Egyptian Gallery Chinese Rotunda

Dinner: 7:30 – 9:30 PM Kintner-Dietrich and Widener

16 17 WEDNESDAY, 25 JUNE 2014 WEDNESDAY, 25 JUNE 2014

Victor K. LaMer Award Lecture Irvine Auditorium TECHNICAL SESSIONS LOCATION (8:20 to 9:20 AM) WED (1:30PM to 3:10 PM) Biocolloids 8 Houston Franklin Biointerfaces 8: Bacterial biointerfaces Houston Coffee Break Houston Bodek Class of ‘49 (9:20 to 9:50 AM) and Hall of Flags & DRL Lobby Colloidal and Surface Forces 8: College Hall 200 Dispersions TECHNICAL SESSIONS LOCATION Directed Assembly 8: Field-assisted Meyerson B1 WED (9:50AM to 12:10 PM) assembly II Biocolloids 7: Drug Carriers Houston Franklin Emulsions, Bubbles and Foams 8: DRL A1 Particulate shape control in emulsion Biointerfaces 7: Biochemistry and Houston droplets Biomedical Applications Class of ‘49 General Papers 8: Polymers and Towne Heilmeier Colloidal and Surface Forces 7: Surface College Hall 200 scattering II Forces and Friction Glasses/Jamming 8: Colloids Skirkanich Berger Directed Assembly 7: Templated Meyerson B1 assembly Microfl uidics: Multiphase & Interfacial DRL A5 Phenomena Emulsions, Bubbles and Foams 7: DRL A1 Emulsions coated with nanoparticles, Molecular Self-Assembly 8 Cohen Terrace polymeric shells and metals / Armored Particles in interfaces, fi elds and liquid Irvine Amado emulsions crystals 8 Environmental Science 7 Houston Golkin Wetting and Adhesion 8: Wettability in Levine General Papers 7: Polymers and Towne Heilmeier Complex Soft Matter Wu and Chen Scattering I Glasses/Jamming 7: Order and Skirkanich COFFEE BREAK Houston Bodek Disorder Berger (3:10 to 3:40 PM) and Hall of Flags & DRL Lobby Microfl uidics: Particle Synthesis DRL A5 Molecular Self-Assembly 7 Cohen Terrace Particles in interfaces, fi elds and liquid Irvine Amado TECHNICAL SESSIONS LOCATION crystals 7 WED (3:40PM to 5:20 PM) Rheology and Dynamics 7 DRL A7 Biointerfaces 9: Amphiphile Monolayers Houston Class of ‘49 Wetting and Adhesion 7: Dynamic Levine Wetting and Models Wu and Chen Colloidal and Surface Forces 9: College Hall 200 Modeling Directed Assembly 9: Field-assisted Meyerson B1 LUNCH: 12:10 – 1:30 PM Houston Bodek assembly III (box lunches) and Hall of Flags Emulsions, Bubbles and Foams 9: DRL A1 Emulsion synthesis approaches General Papers 9: Electrochemistry Towne Heilmeier and Ionic Liquids

18 19 Keynote and Invited Speakers at a Glance

20 21 KEYNOTE and INVITED SPEAKERS at a GLANCE

MONDAY KEYNOTE and INVITED SPEAKERS TUESDAY KEYNOTE and INVITED SPEAKERS (in chronological order): (in chronological order):

# Speaker Time Location # Speaker Time Location 2. M.E. Cates 9:50-10:30 DRL A6 393. M. van Hecke 9:50-10:30 Skirkanich Berger 8. S. Fraden 9:50-10:30 Houston 399. R. Karnik 9:50-10:30 DRL A5 Ben Franklin 422. J. Vermant 9:50-10:30 DRL A7 77. A.H. Mueller 9:50-10:30 Irvine Café 58 362. Zenge Xu 10:30-11:10 College Hall 200 89. G.H. McKinley 9:50-10:30 Levine Wu & Chen 407. S. Kumar 10:30-11:10 Cohen Terrace 29. Oleg Gang 10:30-11:10 Meyerson B1 419. D. Pine 10:30-11:10 Irvine Café 58 35. M. Dennin 10:30-11:10 DRL A1 376. F. Pincet 10:50-11:30 DRL A1 54. M. Wyart 10:30-11:10 Skirkanich Berger 415. L. Reven 11:10-11:50 Irvine Amado 50. D. Velegol 11:10-11:30 Towne Heilmeier 359. I. Szleifer 11:30-12:10 Houston Class of ‘49 68. M. Rubinstein 11:10-11:50 Cohen Terrace 500. S. Mora 1:30-2:10 Levine Wu & Chen 51. H. Butt 11:30-12:10 Towne Heilmeier 473. V. Garbin 2:10-2:30 Towne Heilmeier 131. van Blaaderen 1:30-2:10 Towne Heilmeier 478. P. Charbonneau 2:10-2:50 Skirkanich Berger 135. M. Manning 1:30-2:10 Skirkanich Berger 457. C.B. Murray 2:30-3:10 Meyerson B1 151. M. E. Helgeson 1:30-2:10 DRL A7 461. C.R. Buie 2:30-3:10 DRL A5 145. P. Chaikin 2:10-2:50 Irvine Amado 470. J.C. Hemminger 2:30-3:10 Houston Golkin 112. M. Bevan 2:30-3:10 College Hall 200 474. S.H. Behrens 2:30-2:50 Towne Heilmeier 192. J.D. Fortner 3:40-4:20 Houston Golkin 557. Shu Yang 3:40-4:20 Irvine Amado 196. R. Dagastine 3:40-4:00 Towne Heilmeier 549. E. Brown 4:00-4:40 Skirkanich Berger 214. F. Scior tino 3:40-4:20 Irvine Café 58 516. Ka Yee Lee 4:20-5:00 Houston Class of ‘49 202. L. Berthier 4:00-4:40 Skirkanich Berger 545. J. Conrad 4:20-4:40 Towne Heilmeier 163. L. Bocquet 4:40-5:20 DRL A6 182. S. Glotzer 4:40-5:20 Meyerson B1 186. T.M. Squires 4:40-5:20 DRL A5 199. J. Frechette 4:40-5:00 Towne Heilmeier WEDNESDAY KEYNOTE and INVITED SPEAKERS (in chronological order):

# Speaker Time Location 577. S. Mitragotri 9:50-10:30 Houston Ben Franklin 626. O. Velev 9:50-10:30 DRL A5 621. P. Schall 10:10-10:50 Skirkanich Berger 641. N. Abbott 11:10-11:50 Irvine Amado 687. Andrea Liu 2:30-3:10 Skirkanich Berger

22 23 Symposium Sponsors and Exhibitors

24 25 PLATINUM SPONSORS: GOLD SPONSORS:

ExxonMobil http://corporate.exxonmobil.com/en/ energy/research-and-developments

Thor Labs Solvay USA www.thorlabs.com www.solvaychemicals.us

Soft Matter http://www.rsc.org/publishing/journals/ sm/about.asp

VisiTech International www.visitech.co.uk W.L. Gore & Associates, Inc. www.gore.com

Infi neum www.infi neum.com

26 27 Biolin Scientifi c, Inc. www.biolinscientifi c.com

Symposium Exhibitors (non-sponsors)

Optofl uidics, Inc. www.opfl uid.com

Kruss USA www.kruss.de

28 29 MRSEC support from:

University of Chicago, Materials Research Center

New York University, Materials Research Science and Engineering

Massachusetts Institute of Technology, Center for Materials Science and Engineering

University of Massachusetts at Amherst, Materials Research Science and Engineering Center

Materials Research Laboratory at UCSB

The Triangle Materials Research Science and MRSEC Sponsors Engineering Center (Duke MRSEC) Materials Research Science and Engineering Center at the University of Wisconsin – Madison (UW MRSEC)

Northwestern University, Materials Research Science and Engineering Center

Brandeis Materials Research Laboratory

Harvard Materials Research Science and Engineering Center

University of Pennsylvania, Laboratory for Research on the Structure of Matter

Additional support from:

University of Pennsylvania School of Engineering and Applied Science School of Arts & Sciences

30 31 Plenary & Award Lectures

32 33 David A. Weitz is the Daan Frenkel (1948) Mallingkrodt Professor is 1968 Professor of of Physics and Applied Theoretical Chemistry Physics at Harvard and Head of the University, where he Department of Chemistry has appointment in both at Cambridge University. the Physics Department He received his PhD in experimental Physical and the School of Engineering and Applied Chemistry from the University of Amsterdam Sciences. He received his PhD in physics from (NL). Subsequently, he worked as a postdoctoral Harvard, and then worked at Exxon Research research associate in Chemistry at the University and Engineering for nearly 18 years. From of California at Los Angeles. After that, he worked 1995-99 he was a professor of Physics at the at Shell Research (Amsterdam), the Universities University of Pennsylvania, and he then moved of Utrecht and Amsterdam and the FOM Institute to Harvard, where he leads the experimental for Atomic and Molecular Physics in Amsterdam. soft condensed matter physics research group. His research efforts include soft matter His research focuses on numerical simulations of physics, biophysics and biotechnology. He is many-body systems, with a special emphasis on Director of Harvard’s NSF-funded Materials problems relating to ordering and self-assembly. Research Science and Engineering Center, Daan Frenkel is a member of the Royal Dutch and co-Director of the BASF Advanced Academy of Arts and Sciences, a Foreign Member Research Initiative. of the Royal Society (London), Foreign Honorary Member of the American Academy of Arts & Sciences, Associate Fellow of the World Academy of Sciences and Member of the Academia Europeae. He received numerous international prizes and awards. He holds an honorary Doctorate from the University of Edinburgh and Honorary/Concurrent Professorships from Beijing University of Chemical Technology and Nanjing University.

Daan Frenkel has published well over 400 papers. His book, written together with Berend Smit, on `Understanding Molecular Simulation’ has been translated into Chinese and Russian.

34 35 Daeyeon Lee is Associate Daniel Beltran-Villegas Professor of Chemical and was born in Bogotá, Biomolecular Engineering Colombia. He received at the University of his BS in Chemical Pennsylvania. Daeyeon Engineering (2004) received his B.S. in and MSc in Mechanical Chemical Engineering from Seoul National Engineering (2005) from Universidad de los University in 2001 and received his Ph.D. in Andes, where he worked as an undergraduate Chemical Engineering/Program in Polymer instructor in the department of Chemical Science and Technology at MIT in 2007 Engineering until 2006. He received his Ph.D. co-supervised by Robert E. Cohen and at the Johns Hopkins University (Baltimore, Michael F. Rubner. After his Ph.D., Daeyeon MD) working with Prof. Michael A. Bevan was a postdoctoral fellow in the School of in 2012. Since then, he is a Postdoctoral Engineering and Applied Sciences at Harvard Research Fellow at the University of Michigan University where he worked with David A. working with Prof. Ronald G. Larson. His Weitz. Daeyeon joined the Department of research interests revolve around techniques Chemical and Biomolecular Engineering at the for measuring of colloidal particle conservative University of Pennsylvania in 2009. Daeyeon and dissipative forces and modeling of dynamic has won numerous awards and recognitions assembly processes. In 2012 he received the including the 2010 Victor K. LaMer Award from 2nd place in the Langmuir Student Award ACS Colloid and Surface Chemistry Division, competition held during the 86th Colloids and the NSF CAREER Award (2011), the 2011 Surface Science Symposium. Korean-American Scientists and Engineers Association Young Investigator Award, the 2012 KIChE President Young Investigator Award, the 2013 3M Nontenured Faculty Award and the 2013 AIChE NSEF Young Investigator Award.

36 37 Technical Program

38 39 Plenary Lecture 1 Active Colloids 1: Monday, June 23, 2014, 8:10 AM - 9:20 AM Irvine Spherical Particles I Auditorium Monday, June 23, 2014, 9:50 AM - 12:10 PM Organizers: John Crocker, Kathleen Stebe, Arjun Yodh DRL A6 Arjun Yodh Presider: Organizers: Zvonimir Dogic, Christina Marchetti Presider: J. Palacci 8:10 Opening & Welcome, Eduardo Glandt Dean, School of Engineering & Applied Science 9:50 2. Keynote Lecture: Scalar fi eld theories for active phase separation.M. E. Cates; 8:20 1. Making particles one by one: Microfl u- University of Edinburgh, Edinburgh, UNITED idic fabrication of colloidal particles. D. KINGDOM. A. Weitz; Department of Physics, Harvard University, Cambridge, MA. 10:30 3. Aggregation and segregation of confi ned active particles. X. Yang, M. L. Manning, M. C. Marchetti; Physics Department, Syracuse Abstract: University, Syracuse, NY. This talk will describe new methods to produce colloidal scale particles using microfl uidic devices. The exquisite 10:50 4. Phase behavior of simple active colloids. control provided by these devices enables production of G. S. Redner, A. Baskaran, M. F. Hagan; highly monodisperse particles with complex structures, Physics, Brandeis University, Waltham, MA. using emulsion drops as precursors. Both nanoparticles and larger scale particles can be formulated. Even though 11:10 5. Surprises in the nonequilibrium self-orga- the particles are made one by one, it is nevertheless nization of active Janus particles. J. Zhang, feasible to parallelize the production to make useful J. Yan, S. Granick; University of Illinois at quantities of materials. Urbana Champaign, Urbana, IL.

11:30 6. Collective motion in populations of colloidal robots. A. Bricard1,2, J. Caussin1, N. Des- reumaux1,3, O. Dauchot4,5, D. Bartolo1,6; 1Physics, ENS Lyon, Lyon, FRANCE, 2ESPCI, Paris, FRANCE, 3EPCI, Paris, FRANCE, 4EC2M, ESPCI, Paris, FRANCE, 5CNRS, Paris, FRANCE, 6Pmmh, ESPCI, Paris, FRANCE.

11:50 7. Casimir effect in active matter systems. C. J. Reichhardt, D. Ray, C. Reichhardt; Los Alamos National Laboratory, Los Alamos, NM.

40 41 Biocolloids 1: Proteins 11:50 13. Life in extreme environments: The role of intrinsically disordered proteins under Monday, June 23, 2014, 9:50 AM - 12:10 PM conditions of abiotic stress. F. Yuen, A. Routh, Houston Ben Franklin M. Watson, A. Tunnacliffe; University of Cambridge, Cambridge, UNITED KINGDOM. Organizers: Dennis Discher, Michael Rubinstein Presider: D. Discher

9:50 8. Keynote Lecture: Microfl uidics for protein crystallization. S. Fraden; Brandeis University, Waltham, MA.

10:30 9. Reversible Colloidal Aggregation Mediated by Weak, Biospecifi c Adsorption of Proteins to Carbohydrates. G. Duncan, M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins, Baltimore, MD.

10:50 10. Chirality-selected phase transitions in ionic polypeptide complexes. S. L. Perry1, L. Leon1, K. Q. Hoffmann2, M. J. Kade1, D. Priftis1, K. A. Black3, D. Wong1, R. A. Klein1, C. F. Pierce, III1, K. O. Margossian1, J. K. Whitmer1,4, J. Qin1, J. J. de Pablo1,4, M. Tirrell1,4; 1Institute for Molecular Engineering, University of Chicago, Chicago, IL, 2Department of Chemical Engineering, University of Wisconsin, Madison, Madison, WI, 3Department of Bioengineering, University of California at Berkeley, Berkeley, CA, 4Argonne National Laboratory, Argonne, IL.

11:10 11. Study of a colloid system with important implications in the biopharmaceutical industry: Formation of DNA-protein precipitates during downstream processing. A. C. Dumetz, K. Salansky, D. N. Paolella, G. J. Terfl oth, K. E. Göklen; BioPharmaceutical Development, GlaxoSmithKline, King of Prussia, PA.

11:30 12. Rheological response to cluster formation in concentrated protein solutions. P. D. Godfrin1, S. D. Hudson2, K. Hong3, P. Falus4, N. J. Wagner1, Y. Liu5,1; 1Chemical Engineering, University of Delaware, Newark, DE, 2Materials Measurement Laboratory, NIST, Gaithersburg, MD, 3Center for Nanophase Materials and Science, ORNL, Oak Ridge, TN, 4TOF-HR Group, ILL, Grenoble, FRANCE, 5Center for Neutron Research, NIST, Gaithersburg, MD.

42 43 Biointerfaces 1: Engineered Interfaces Colloidal and Surface Forces 1: Entropic Monday, June 23, 2014, 9:50 AM - 12:10 PM Systems Houston Class of ‘49 Monday, June 23, 2014, 9:50 AM - 12:10 PM College Hall 200 Organizers: Ravi Radakrishnan, Tobias Baumgart Presider: R. Radhakrishnan Organizers: Eric Furst, Ray Dagastine Presider: R. Dagastine 9:50 14. Lubricity of in-vitro fouled soft contact lenses. C. PENG, P. Lim, H. Chong, A. Tran, 9:50 20. Effects of multiple depletants on colloidal C. J. Radke; Chemical and Biomolecular forces and stability: Evidence of synergistic Engineering, University of California at effects. J. Y. Walz1, S. Ji2; 1Chemical and Berkeley, Berkeley, CA. Materials Engineering, University of Kentucky, Lexington, KY, 2Chemical Engineering, 10:10 15. Exploring surface modifi cation techniques Virginia Tech, Blacksburg, VA. using ZetaSpin for the creation of next- generation diabetes treatment devices. D. 10:10 21. Shape-sensitive crystallization in G. Franey, B. Babcox, J. H. Adair; Materials colloidal superball fl uids. L. Rossi1,2, V. Science and Engineering, Pennsylvania State Soni3, S. Sacanna4, P. M. Chaikin5, D. Pine5, University, University Park, PA. A. Philipse1, W. T. Irvine3; 1Physical and Colloid Chemistry, Utrecht University, Utrecht 10:30 16. Assembling biomimetic surfaces from University, NETHERLANDS, 2Chemistry and modular amphiphilic protein polymers. F. Biochemistry, (current address) University Wan, S. Fischer, M. Bagheri, Z. al-Rekabi, of California Los Angeles, Los Angeles, CA, S. Dick, J. L. Harden; Physics, University of 3Physics, University of Chicago, Chicago, Ottawa, Ottawa, ON, CANADA. IL, 4Chemistry, Utrecht University, New York University, NY, 5Center for Soft Matter 10:50 17. Graphene Oxide as a Platform for the Research, New York University, New York, Development of Novel Antibacterial Materials. NY. A. F. Faria, F. Perrault, E. Shaulsky, L. A. Chavez, M. Elimelech; Chemical and 10:30 22. DENDRITIC NANOFLUIDS MEDIATING Environmental Engineering, Yale University, SURFACE FORCES. G. A. Pilkington, W. New Haven, CT. H. Briscoe; School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM. 11:10 18. Biocatalytic Reduction of Carbonyl and Alcohol Based Odorants in Low/Zero VOC 10:50 23. Entropic forces in the self-assembly of 1 Architectural Coating. S. ARUMUGAM , colloids and biomolecules. A. Zaccone, E. M. D. Frattarelli1, K. Manna2, J. Bohling3; Terentjev; Cavendish Laboratory, University of 1Formulation Sciences Core R&D, THE Cambridge, Cambridge, UNITED KINGDOM. DOW CHEMICAL COMPANY, Spring House, 2 PA, Dow Microbial Control, THE DOW 11:10 24. Investigating structural and depletion CHEMICAL COMPANY, Spring House, forces between soft interfaces in systems of 3 PA, Dow Coating Materials, THE DOW spherical and rod-like micelles. C. Fewkes1, CHEMICAL COMPANY, Collegeville, PA. R. Dagastine1, R. Tabor2; 1Chemical and Biomolecular Engineering, University of 11:30 19. Functional Patterned Surface Coatings Melbourne, Melbourne Victoria, AUSTRALIA, by Dewetting of Thin Polymer Films. C. 2School of Chemistry, Monash University, Neto; School of Chemistry, The University of Clayton Victoria, AUSTRALIA. Sydney, Sydney, AUSTRALIA.

44 45 11:30 25. Mechanism for long-range exclusion zone 1 Directed Assembly 1: DNA-Mediated formation in colloidal suspensions. D. Florea , Assembly S. Musa2, J. M. Huyghe2, H. M. Wyss1; 1ICMS & Mechanical Engineering, Eindhoven Monday, June 23, 2014, 9:50 AM - 12:10 PM University of Technology, Eindhoven, Meyerson B1 NETHERLANDS, 2Mechanical Engineering, Eindhoven University of Technology, Organizers: Cherie Kagan, Vinothan Manoharan Eindhoven, NETHERLANDS. Presider: V. Manoharan

Dynamic measurements of nanoparticle- 9:50 27. Crystallization of micrometer sized 11:50 26. 1 lipid monolayer interactions. , I. Khan, G. colloids with DNA hybridization.Y. Wang , A. Xi 2 2 2 1 D. Bothun; Chemical Engineering, University Y. Wang , X. Zheng , M. Weck , D. Pine ; 1 of Rhode Island, Kingston, RI. Department of Physics, New York University, New York, NY, 2Department of Chemistry, New York University, New York, NY.

10:10 28. Programming colloidal phase transitions with DNA strand displacement. W. B. Rogers1, V. N. Manoharan2; 1School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, 2Physics & School of Engineering and Applied Sciences, Harvard University, Cambridge, MA.

10:30 29. Keynote Lecture: Programmable Nanoparticle Assembly: from Exploration to Design. O. Gang; Brookhaven National Laboratory, Upton, NY.

11:10 30. DNA directed sequential self-assembly of emulsions. Y. Zhang1, L. Pontani1, M. Haase1, L. Feng1, R. Sha2, N. Seeman2, J. Brujic1, P. Chaikin1; 1Physics Department, New York University, New York, NY, 2Chemistry Department, New York University, New York, NY.

11:30 31. High throughput, in situ measurements of LNA hybridization activity on microspheres. V. T. Milam, N. Eze; School of Materials Science & Engineering, Georgia Institute of Technology, Atlanta, GA.

11:50 32. Computational analysis of spontaneous diffusionless transformations in binary DNA- linked colloidal superlattices. I. C. Jenkins, J. T. McGinley, J. C. Crocker, T. Sinno; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

46 47 Emulsions, Bubbles and Foams 1: Environmental Science 1 Mechanical Responses of Foams, Monday, June 23, 2014, 9:50 AM - 12:10 PM Elastomers and Interfaces Houston Golkin Monday, June 23, 2014, 9:50 AM - 12:10 PM Organizers: Daniel Strongin, Howard Fairbrother DRL A1 Presider: H. Fairbrother Organizers: Doug Durian, Jasna Brujic Aggregate morphology, stability, Presider: D. Durian 9:50 39. and transport of molybdenum disulfi de nanoparticles in subsurface environments. Interfacial protein dynamics at air-water 9:50 33. 1, L. Guiney2, N. Mansukhani2, interfaces using a microfl uidic tensiometer. J. Lanphere M. Hersam2, S. Walker1; 1Chemical and 1, C. J. Roberts1, E. M. Furst1, J. B. Rovner Environmental Engineering, University of S. D. Hudson2; 1Department of Chemical California Riverside, Riverside, CA, 2Material and Biomolecular Engineering, University of Science and Engineering, Northwestern Delaware, Newark, DE, 2Materials Science & University, Evanston, IL. Engineering Division, Polymers & Complex Fluids Group, National Institute of Standards and Technology, Gaithersburg, MD. 10:10 40. Colloidal stability of elongated shaped gold nanoparticles in aquatic environment. S. , P. Vikesland; Civil and environmental Elastic and plastic deformations of a Abtahi 10:10 34. engineering, Virginia Tech, BLACKSBURG, bubble raft driven by oscillatory compression. VA. N. Hagans, C. O’Dea, K. Feitosa; Physics and Astronomy, James Madison University, Harrisonburg, VA. 10:30 41. Colloidal rod diffusion in model porous media. J. L. Bitter1, Y. Yang2, G. A. Duncan2, D. H. Fairbrother1, M. A. Bevan2; 1Chemistry, 10:30 35. Keynote Lecture: Failure Modes of Johns Hopkins University, Baltimore, MD, , C. Kuo; Two-Dimensional Foam. M. Dennin 2Chemical and Biomolecular Engineering, Physics and Astronomy, UC Irvine, Irvine, CA. Johns Hopkins University, Baltimore, MD. How making small holes in soft solids 11:10 36. A Complete Set of Numerical Tools for can make them stiffer. 1, R. 10:50 42. R. W. Style Adsorption Equilibria and Diffusion Kinetics. Boltyanskiy1, K. E. Jensen1, R. S. Sarfati1, J. A. Ladshaw, , C. Tsouris; Geor- S. Wettlaufer2, E. R. Dufresne1; 1Mechanical S. Yiacoumi gia Institute of Technology, Atlanta, GA. Engineering and Materials Science, Yale University, New Haven, CT, 2Geology and Geophysics, Yale University, New Haven, CT. 11:10 43. Lability of organic acids on kaolinite and gamma alumina surfaces. M. J. Kelley1,2, D. Bailey2; 1Applied Science, Coll. of William & Dynamics of the deformation of 11:30 37. Mary, Newport News, VA, 2Thomas Jefferson immiscible viscoelastic molten wax droplets National Accelerator Laboratory, Newport at a liquid interface. 1, S. N. Beesabathuni News, VA. G. M. Homsy1, S. Lindberg2, J. C. Wesner2, M. Caggioni2, A. Shen1; 1Mechanical Engineering, University of Washington, 11:30 44. Neutron Imaging of lithium ion transport 2 in mesoporous carbon materials. K. Shar- Seattle, WA, Process Technologies, Procter 1 1 2 3 & Gamble, West Chester, OH. ma , S. Yiacoumi , J. Gabitto , R. Mayes , J. Kiggans3, D. DePaoli3, S. Dai3, C. Tsouris3; 1Georgia Institute of Technology, Atlanta, GA, Dilatational properties of insoluble 11:50 38. 2Prairie View A&M University, Prairie View, monolayers examined by oscillating TX, 3Oak Ridge National Laboratory, Oak microbubble. 1, S. Anna2; 1Chemical A. Kotula Ridge, TN. Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Chemical Engineering and Mechanical Engineering, Carnegie Mellon University, Pittsburgh, PA.

48 49 11:50 45. UV Irradiation Induced Transformation of General Papers 1: Wetting Nano-TiO2: Aggregation and Photoreactivity. L. Guo, J. Sun, H. Zhang; Research Center Monday, June 23, 2014, 9:50 AM - 12:10 PM for Eco-environmental Sciences, Chinese Towne Heilmeier Academy of Sciences, Beijing, CHINA. Organizers: Joelle Frechette, Mike Bevan Presider: J. Frechette

9:50 46. Line tension and line entropy in a liquid crystal Langmuir monolayer. P. Mandal1,2, J. S. Yarzebinski1, J. A. Mann, Jr3, E. K. Mann1; 1Physics, Kent State University, Kent, OH, 2Mechanical Engineering, KAUST, Thuwal, SAUDI ARABIA, 3Chemical Engineering, Case Western Reserve University, Cleveland, OH.

10:10 47. Dewetting fi lm dynamics using a nanofl uid inside a capillary. H. Zhang, A. D. Nikolov, D. T. Wasan; Chemical Engineering, Illinois Institute of Technology, Chicago, IL.

10:30 48. Estimation of transport properties of model cement microstructures. A. McCreanor, A. F. Routh; University of Cambridge, Cambridge, UNITED KINGDOM.

10:50 49. Self-dispersing aerosol drug carriers for pulmonary drug delivery at low deposition fl uxes. R. Sharma1, T. E. Corcoran2, S. Garoff3, T. Przybycien1,4, R. D. Tilton1,4; 1Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Department of Medicine, University of Pittsburgh, Pittsburgh, PA, 3Physics Department, Carnegie Mellon University, Pittsburgh, PA, 4Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA.

11:10 50. Invited Lecture: Multi-ion diffusio- phoresis in dead-End channels. D. Velegol, T. Chiang, A. Kar; Chemical Engineering, Penn State University, University Park, PA.

11:30 51. Keynote Lecture: Confocal microscopy to study wetting and dynamics at interfaces. K. Koynov, D. Vollmer, P. Papadopoulos, H. Butt; Physics at Interfaces, Max Planck Institute for Polymer Research, Mainz, GERMANY.

50 51 Glasses/Jamming 1: Rheology Microfl uidics: Drops Bubbles Monday, June 23, 2014, 9:50 AM - 12:10 PM Monday, June 23, 2014, 9:50 AM - 12:10 PM Skirkanich Berger DRL A5

Organizers: Rob Riggleman, Andrea Liu, Eric Weeks Organizers: Paulo Arratia, Kevin Turner Presider: E. Brown Presider: B. Bharti

9:50 52. Identifying structural defects in amorphous 9:50 57. Generation of monodisperse particle- solids. S. S. Schoenholz1, E. Cubuk2, J. stabilized bubbles with similar nonspherical Rieser1, B. Malone2, D. Durian1, J. Rottler3, shape controlled by particle loading at the E. Kaxiras4, A. J. Liu1; 1Physics, University interface. A. Kotula1, S. Anna2; 1Chemical of Pennsylvania, Philadelphia, PA, 2Applied Engineering, Carnegie Mellon University, Physics, Harvard University, Boston, MA, Pittsburgh, PA, 2Chemical Engineering and 3Physics, University of British Columbia, Mechanical Engineering, Carnegie Mellon Vancouver, BC, CANADA, 4Physics, Harvard University, Pittsburgh, PA. University, Boston, MA. 10:10 58. Creating Emulsions with Solid and Active 10:10 53. Critical scaling of stress and spatial Cores by Flow-Focusing. M. M. Norton1, correlations with strain rate in sheared T. Brugarolas2, J. Chou2, D. Lee2, H. H. amorphous solids. J. T. Clemmer1, K. M. Bau1; 1Mechanical Engineering and Applied Salerno2, M. O. Robbins1; 1Physics and Mechanics, University of Pennsylvania, Astronomy, Johns Hopkins University, Philadelphia, PA, 2Chemical and Biomolecular Baltimore, MD, 2Sandia National Laboratories, Engineering, University of Pennsylvania, Albuquerque, NM. Philadelphia, PA.

10:30 54. Invited Lecture: The yielding transition 10:30 59. An “Off-the-shelf” Capillary Microfl uidic in athermal amorphous solids of soft Device that Enables Tuning of the Drop particles. M. Wyart; NYU, New York, NY. Breakup Regime at Constant Flow Rates. R. K. Prud’homme; Chem and Biol Engr, 11:10 55. Role of dissipation mechanism on sheared Princeton University, Princeton, NJ. soft-particle packings: rheology, diffusion, and plastic correlations. A. Roy, K. Karimi, 10:50 60. Tunable wetting and adhesion of doped C. E. Maloney; Civil and Environmental polypyrrole surface for ultra-low-voltage Engineering, Carnegie Mellon University, manipulation of microdroplets. W. Xu, C. Pittsburgh, PA. Choi, E. Yang; Mechanical Engineering Department, Stevens Institute of Technology, 11:30 56. Rheology of soft colloids across the onset Hoboken, NJ. of rigidity: Scaling behavior, thermal and non-thermal Responses. Y. Xu1,2, A. Basu1, 11:10 61. Geometrically-mediated snap-off of water- T. Still1,2, P. E. Arratia3, Z. Zhang4, K. N. in-oil emulsion droplets in microfl uidic fl ow Nordstrom1, J. M. Rieser1, J. P. Gollub5, D. J. focusing devices. J. Yao, J. Oakey; Chemical Durian1, A. G. Yodh1; 1Department of Physics & Petroleum Engineering, University of and Astronomy, University of Pennsylvania, Wyoming, Laramie, WY. Philadelphia, PA, 2Complex Assemblies of Soft Matter, CNRS-Rhodia-UPenn UMI 11:30 62. Phase separation and de-wetting of 3254, Bristol, PA, 3Department of Mechanical aqueous two phase systems in a microfl uidic Engineering and Applied Mechanics, droplet array. C. W. Nelson1, S. L. Anna2; University of Pennsylvania, Philadelphia, PA, 1Mechanical Engineering, Carnegie Mellon 4Center for Soft Condensed Matter Physics University, Pittsburgh, PA, 2Chemical and Interdisciplinary Research, Soochow Engieering & Mechanical Engineering, University, Soochow, CHINA, 5Department of Carnegie Mellon University, Pittsburgh, PA. Physics, Haverford College, Haverford, PA.

52 53 11:50 63. Size measurements of sub-micron Molecular Self-Assembly 1 droplets generated via tipstreaming and the effect of altering operating conditions. T. M. Monday, June 23, 2014, 9:50 AM - 12:10 PM Moyle, L. M. Walker, S. L. Anna; Chemical Cohen Terrace Engineering, Carnegie Mellon University, Dan Hammer, Darrin Pochan Pittsburgh, PA. Organizers: Presider: D. Pochan

9:50 64. SURFACES MEDIATED SELF-ASSEM- BLY AND RAPID GROWTH OF AMYLOID FIBRILS. Y. LIN, E. J. PETERSSON, Z. FAKHRAAI; Chemistry, University of Pennsyl- vania, Philadelphia, PA.

10:10 65. Self-assembly of model microtubules. S. Cheng1, M. J. Stevens2; 1Physics, Virginia Tech, Blacksburg, VA, 2Computational Ma- terials and Data Sciences, Sandia National Laboratories, Albuquerque, NM.

10:30 66. Tension induced polymerization and growth in neuronal cells. P. Purohit; Mechan- ical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

10:50 67. Surfactant micelle-mediated polydispersity in the synthesis of amphipathic, self-assem- bling polypeptides. M. B. Kubilius, R. Tu; Chemical Engineering, City College of New York, New York, NY.

11:10 68. Keynote Lecture: Self-assembly of diblock polypeptides: Weak micellization. W. Hassouneh1, E. Zhulina2,3, A. Chilkoti1, M. Rubinstein4; 1Department of Biomedical Engineering, Duke University, Durham, NC, 2Institute of Macromolecular Compounds, Russian Academy of Sciences, St. Peters- burg, RUSSIAN FEDERATION, 3National Research University of Information Technol- ogy, Mechanics and Optics, St. Petersburg, RUSSIAN FEDERATION, 4Department of Chemistry, University of North Carolina, Chap- el Hill, NC.

11:50 69. Modular Polyelectrolyte Based Assemblies as Delivery Vehicles. L. Leon1,2, S. Perry1, C. Kuo3, D. Priftis1, D. Wong1, M. Kade1, R. Klein1, K. Margossian1, C. Pierce1, Y. Fang3, M. Tirrell1,2; 1Institute for Molecular Engineer- ing, University of Chicago, Chicago, IL, 2Ar- gonne National Lab, Lemont, IL, 3Department of Medicine, University of Chicago, Chicago, IL.

54 55 Particles in Interfaces, Fields and Liquid 11:50 76. Adsorption of particles to fl uid interfaces: Crystals 1 role of particle shape and surface charge. V. Dugyala, M. G. Basavaraj; Department Monday, June 23, 2014, 9:50 AM - 12:10 PM of Chemical Engineering, Indian Institute of Irvine Amado Technology Madras, Chennai, INDIA.

Organizers: Tony Dinsmore, Chris Santangelo, Mohamed Gharbi Presider: C. Santangelo

9:50 70. Electrostatic interaction between colloids trapped at an electrolyte interface. A. Majee1,2, M. Bier1,2, S. Dietrich1,2; 1Max-Planck Institute for Intelligent Systems, Stuttgart, GERMANY, 2IV Institut für Theoretische Physik, Universität Stuttgart, Pfaffenwaldring 57, Stuttgart, GER- MANY.

10:10 71. Tunable Pickering emulsions stabilized solely by oppositely charged particles. T. Nal- lamilli, E. Mani, M. G. Basavaraj; Department of Chemical Engineering, Indian Institute of Technology Madras, Chennai, INDIA.

10:30 72. Nanoparticle Adsorption at Fluid Interfaces and the Role of Interfacial Electric Potential. W. Hong1, S. T. Russell2, A. D. Dinsmore1; 1Physics, University of Massachusetts Amherst, Amherst, MA, 2Chemical Engineer- ing, University of Massachusetts Amherst, Amherst, MA.

10:50 73. Stabilization of emulsion by oppositely charged colloids: A Monte Carlo simulation study. S. Christ Doss Pushpam, M. Basavaraj, E. Mani; Chemical Engineering, Indian Insti- tute of Technology Madras, Chennai, INDIA.

11:10 74. Charged nanoparticles at liquid interfaces: Charge-reversal and voltage-tunable arrays. M. Schlossman; Physics, University of Illinois at Chicago, Chicago, IL.

11:30 75. Organic-Stabilizer-Free Synthesis of Shape-Controlled Platinum Nanocrystals by Interfacial Galvanic Exchange Reactions. D. Chen, Y. Liu, Y. J. Tong*; Department of Chemistry, georgetown univeristy, Washing- ton, DC.

56 57 Patchy and Janus Particles 1: Synthesis Rheology and Dynamics 1 and Assembly of Monday, June 23, 2014, 9:50 AM - 12:10 PM Patchy Particles DRL A7 Monday, June 23, 2014, 9:50 AM - 12:10 PM Organizers: Chinedum Osuji, Kelly Schultz Irvine Café ‘58 Presider: Y. M. Joshi Organizers: Daeyeon Lee, Alberto Striolo Cross fl ow fi ltration of bentonite Presider: A. Striolo 9:50 82. suspensions in the presence of rod-shaped cellulose nano crystal particles. H. Balavi, 9:50 77. Keynote Lecture: Guided hierarchical Y. Boluk; Civil & Environmental Engineering, co-assembly of soft, patchy nanoparticles. University of Alberta, Edmonton, AB, ; Organic Chemistry, Johannes A. H. Mueller CANADA. Gutenberg University Mainz, Mainz, GERMA- NY. 10:10 83. New modular fl ow cell for characteriza- tion of structure in complex fl uids undergoing Effect of surface chemistry and metallic 10:30 78. non-shear fl ows using small angle neutron layer thickness on the hemispheric binding scattering. ; NIST Center for Neu- and clustering of metallodielectric Janus K. Weigandt tron Research, NIST, Gaithersburg, MD. spheres. O. Shemi, M. J. Solomon; Chemical Engineering, University of Michigan, Ann Arbor, MI. 10:30 84. Deformation and transport of an elastic fi bre in a viscous cellular fl ow. N. Quennouz1, A. Lindner2, O. du Roure2, M. Shelley3; 1Yale Molecular dynamics of a model dimerizing 10:50 79. University, New Haven, CT, 2PMMH-ESPCI, liquid. 1, Y. Liu2; 1NIST Center C. E. Bertrand Paris, FRANCE, 3The Courant Institute, New for Neutron Science, National Institute of York, NY. Standards and Technology, Gaithersburg, MD, 2Dept. of Chemical and Biomolecular Engineering, University of Delaware, Newark, 10:50 85. Spatiotemporal measurements of DE. branched micellar solutions under large am- plitude oscillatory shear (LAOS) using small angle neutron scattering (SANS). Design and self-assembly of colloidal M. Cal- 11:10 80. , S. Rogers, N. J. Wagner; Chemical molecules: anisotropic functionalization is not abrese and Biomolecular Engineering, University of necessary. , J. He, Y. Liu; Chemistry and Z. Nie Delaware, Newark, DE. Biochemistry, University of Maryland, College Park, MD. 11:10 86. Diffusive dynamics of colloids in fl ow. M. , S. Ghosh, F. Mugele; Science and Modeling of Anisotropic Colloid Binding H. Duits 11:50 81. Technology, University of Twente, Enschede, Kinetics. 1, L. Colón- D. J. Beltran-Villegas NETHERLANDS. Meléndez2, M. J. Solomon1, R. G. Larson1; 1Chemical Engineering, University of 2 11:30 87. Polymer dynamics in PMMA/carbon Michigan, Ann Arbor, MI, Physics, University 1 2 of Michigan, Ann Arbor, MI. composites. R. Ashkar , M. Abdulbaki , M. Tyagi1, A. Faraone1, P. Butler1, R. Krishnamoorti2; 1NIST Center for Neutron Research, Gaithersburg, MD, 2Department of Chemical Engineering, University of Houston, Houston, TX.

58 59 11:50 88. Brownian Dynamics of Patchy Spheres: Wetting and Adhesion 1: the Effect of Viscosity and Surface Coating. Superhydrophobic and Superoleophobic J. Cui1, I. Kretzschmar2, P. Shapturenka2; 1Pen-Tung Sah Institute, Xiamen University, Surfaces 2 Xiamen, CHINA, Chemical Engineering, City Monday, June 23, 2014, 9:50 AM - 12:10 PM College, the City University of New York, New Levine Wu and Chen York, NY. Organizers: Shu Yang, Eric Dufresne Presider: G. H. McKinley

9:50 89. Keynote Lecture: Designing Superhydrophobic and Superphotophilic Transparent Nanotextured Surfaces. H. Choi1, K. Park1, R. E. Cohen2, G. Barbastathis1, G. H. McKinley1; 1Mechanical Engineering, MIT, Cambridge, MA, 2Chemical Engineering, MIT, Cambridge, MA.

10:30 90. Transparent and superamphiphobic surfaces from spray coating of stringed silica nanoparticle/sol solutions. D. Ge, L. Yang, Y. Zhang, Y. Rahmawan, S. Yang; MSE, University of Pennsylvania, Philadelphia, PA.

10:50 91. Omniphobic slippery coatings based on lubricant infused porous polyelectrolyte multilayers. X. Huang1, J. D. Chrisman1, N. S. Zacharia2; 1Mechanical Engineering, Texas A&M University, College Station, TX, 2Department of Polymer Engineering, The University of Akron, Akron, OH.

11:10 92. Drop size effect on contact angle results of superhydrophobic surfaces. E. Ozen Cansoy; Chemistry, Piri Reis University, Istanbul, TURKEY.

11:30 93. Superhydrophobic Surfaces: Role of Water Density Fluctuations in Drying Transitions. S. Suruchi; University of Pennsylvania, Philadelphia, PA.

11:50 94. Silane Coupling Agents that Help in Making Superhydrophobic and Superhydrophillic Surfaces. M. Singh, J. G. Matisons, J. Zazyczny, B. Arkles; R&D, Gelest Inc, MORRISVILLE, PA.

60 61 Active Colloids 2: Rods and Liquid Biocolloids 2: Interactions I Crystals Monday, June 23, 2014, 1:30 PM - 3:10 PM Monday, June 23, 2014, 1:30 PM - 3:10 PM Houston Ben Franklin DRL A6 Organizers: Dennis Discher, Michael Rubinstein Organizers: Zvonimir Dogic, Christina Marchetti Presider: O. Gang Presider: S. Fraden 1:30 100. Ion-specifi c effects on prion nucleation 1 1 Defect dynamics in active 2D nematic and strain formation. J. Rubin , H. Khosravi , 1:30 95. 2 3 1 liquid crystals. , G. S. Redner, K. L. Bruce , M. E. Lydon , S. H. Behrens , S. J. DeCamp 2 1 1 M. F. Hagan, Z. Dogic; Physics, Brandeis Y. O. Chernoff , A. S. Bommarius ; School University, Waltham, MA. of Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta, 2 Dynamic self-organization of self- GA, School of Biology, Georgia Institute 1:50 96. 3 1 of Technology, Atlanta, GA, School of propelled colloidal rods. H. Vutukuri , A. van Blaaderen2, W. T. Huck1; 1Institute for Chemistry & Biochemistry, Georgia Institute of Molecules and Materials, Radboud University, Technology, Atlanta, GA. Nijmegen, NETHERLANDS, 2Debye Institute for NanoMaterials, Utrecht University, Utrecht, 1:50 101. Characterization and control of NETHERLANDS. surfactant-mediated Norovirus interactions. B. Mertens1, M. Moore2, L. Jaykus2, O. D. Velev1; 1Chemical and Biomolecular 2:10 97. Active nematic theory of microtubule/ motor-protein assemblies. ; Courant Engineering, North Carolina State University, T. Gao 2 Institute of Mathematical Sciences, New York Raleigh, NC, Food, Bioprocessing, & University, New York, NY. Nutrition Sciences, North Carolina State University, Raleigh, NC. 2:30 98. Structure and Rheology of Active Gel Ion permeation inside microgel particles Networks. D. T. Chen; Physics, Brandeis 2:10 102. University, Waltham, MA. induced by specifi c interactions: from charge inversion to overcharging. A. Moncho-Jordá, I. Adroher-Benítez; Applied Physics, Univesity 2:50 99. Reconfi gurable swarming of nematic colloids commanded by photoactivated of Granada, Granada, SPAIN. surface patterns. F. Sagues1, S. Hernandez1, P. Tierno2, J. Ignes-Mullol1; 2:30 103. Multicompartment capsules that mimic 1Physical Chemistry, Universitat de the architecture of biological cells. H. Oh, Barcelona, Barcelona, SPAIN, 2Structure A. Goyal, S. R. Raghavan; Chemical and and Constituents of Matter, Universitat de Biomolecular Engineering, University of Barcelona, Barcelona, SPAIN. maryland, College Park, MD.

2:50 104. Sorting bacteria with surface free energy. X. Zhang1,2, Q. Zhang3, T. Yan3, Y. Y. Zuo1; 1Department of Mechanical Engineering, University of Hawaii at Manoa, Honolulu, HI, 2School of Material science and Engineering, University of Science and Technology Beijing, Beijing, CHINA, 3Department of Civil and Environmental Engineering, University of Hawaii at Manoa, Honolulu, HI.

62 63 Biointerfaces 2: Amphiphile Biophysics Colloidal and Surface Forces 2: kT Monday, June 23, 2014, 1:30 PM - 3:10 PM Interactions Houston Class of ‘49 Monday, June 23, 2014, 1:30 PM - 3:10 PM College Hall 200 Organizers: Ravi Radakrishnan, Tobias Baumgart Presider: R. Radhakrishna Organizers: Eric Furst, Ray Dagastine Presider: J. Walz 1:30 105. Anomalous lateral diffusion in a viscous membrane surrounded by viscoelastic media. 1:30 109. Interfacial kinetics of colloids at solid S. Komura; Department of Chemistry, Tokyo interfaces. P. F. Salipante, S. D. Hudson; Metropolitan University, Tokyo, JAPAN. National Institute of Standards and Technology, Gaithersburg, MD. 1:50 106. Nucleation barrier to registration of lipid bilayer domains. J. J. Williamson, P. D. 1:50 110. Interactions of a colloidal sphere near Olmsted; Physics, Georgetown University, a fl at boundary. B. Krishnatreya, C. Wang, Washington DC, DC. H. W. Moyses, D. G. Grier; Center for Soft Matter Research and Physics, New York 2:10 107. Structure and Dynamics of Stratum University, New York, NY. Corneum Lipid Bilayers.P. Olmsted1, C. 2 3 1 Das , M. Noro ; Department of Physics, 2:10 111. Measurements of Hydrodynamic and Georgetown University, Washington, DC, Surface Forces in Wetting Films Using the 2University of Leeds, Leeds, UNITED Force Apparatus for Deformable Surfaces 3 KINGDOM, Unilever R & D, Port Sunlight, (FADS).L. Pan1, B. Dong2, A. Wang2, R. UNITED KINGDOM. Yoon1;1Department of Mining and Minerals Engineering, Virginia Tech, Blacksburg, 2:30 108. Comparison of oleic acid and glyceryl VA, 2Bradley Department of Electrical and trioleate interacting with stratum corneum Computer Engineering, Virginia Tech, lipids. G. Mao1, C. R. Flach2, M. C. Mack Blacksburg, VA. Correa1, R. Mendelsohn2, R. M. Walters1; 1 2 Johnson & Johnson, Skillman, NJ, Rutgers 2:30 112. Keynote Lecture: Colloidal energy University, Newark, NJ. and diffusivity landscapes in synthetic and biological materials.M. Bevan; Johns Hopkins, Baltimore, MD.

64 65 Directed Assembly 2: Targeted Assembly Electrokinetics: General Monday, June 23, 2014, 1:30 PM - 3:10 PM Monday, June 23, 2014, 1:30 PM - 3:10 PM Meyerson B1 DRL A5

Organizers: Cherie Kagan, Vinothan Manoharan Organizers: Darrell Velegol, Aditya Khair Presider: C. Kagan Presider: N. Wu

1:30 113. High-yield production of stable colloidal 1:30 118. Charge carriers in doped nonpolar clusters using crystalline templates. J. liquids. B. A. Yezer, A. S. Khair, P. J. Sides, T. McGinley, III, I. Jenkins, T. Sinno, J. D. C. Prieve; Chemical Engineering, Carnegie C. Crocker; Chemical and Biomolecular Mellon University, Pittsburgh, PA. Engineering, University of Pennsylvania, Philadelphia, PA. 1:50 119. Surfactant-mediated electric charging mechanisms in nonpolar media. J. LEE, S. 1:50 114. Gold Nanostar-Nanospheres H. Behrens; Chemical and Biomolecular Superstructures as SERS Substrates. A. De Engineering, Georgia Institute of Technology, Silva Indrasekara1, L. Fabris1,2; 1Materials Atlanta, GA. Science and Engineering, Rutgers University, Piscataway, NJ, 2Institute for Advanced 2:10 120. Transient nonlinear electrohydrodynamic Materials Devices and Nanotechnology, drop deformation. J. A. Lanauze, L. M. Rutgers University, Piscataway, NJ. Walker, A. S. Khair; Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA. 2:10 115. Isotropic Gold Nanoparticle Clusters Exhibiting Strong Magnetic Dipole and 2:30 121. Electrical Impedance Characterization of Quadrupole Resonance. Z. Qian1, S. P. Micro-nanochannel Devices. J. Schiffbauer, Hasting2, C. Li1, N. Engheta3, Z. Fakhraai1, S. U. Liel, N. Liebowitz, S. Park, G. Yossifon; Park1; 1Chemistry, University of Pennsylvania, Mechanical Engineering, Technion, IIT, Haifa, philadelphia, PA, 2Physics, University of ISRAEL. Pennsylvania, Philadelphia, PA, 3Department of Electrical and Systems Engineering, 2:50 122. Electrokinetic fl ows in mineral University of Pennsylvania, Philadelphia, PA. replacement reactions. A. Kar, B. Mays, C. Gorski, D. Velegol; Chemical Engineering, 2:30 116. Directed self-assembly of tetrahedral Penn State University, University Park, PA. plasmonic clusters for metafl uids. N. B. Schade1, D. A. Kunz2, W. B. Rogers2, G. Yi3, V. N. Manoharan4; 1Physics, Harvard University, Cambridge, MA, 2SEAS, Harvard University, Cambridge, MA, 3Department of Polymer Science and Engineering and School of Chemical Engineering, Sungkyunkwan University, Suwon, KOREA, REPUBLIC OF, 4SEAS and Physics, Harvard University, Cambridge, MA.

2:50 117. A systematic framework for assessing the feasibility of target DNA-linked particle assemblies. I. C. Jenkins, J. T. McGinley, J. C. Crocker, T. Sinno; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

66 67 Emulsions, Bubbles and Foams 2: Environmental Science 2 Dynamical Evolution of Foams and Monday, June 23, 2014, 1:30 PM - 3:10 PM Emulsions Houston Golkin Monday, June 23, 2014, 1:30 PM - 3:10 PM Organizers: Daniel Strongin, Howard Fairbrother DRL A1 Presider: H. Fairbrother Organizers: Doug Durian, Jasna Brujic Reactivity of CO2-H2O-sulfi de mixtures Presider: N. D. Denkov 1:30 127. with iron bearing minerals. K. Lammers 1, J. Delassandro1, M. A. Schoonen2, Physico-chemical control of bubble Wilking 1:30 123. D. R. Strongin1; 1Chemistry, Temple Ostwald ripening in foams. , S. Tcholakova University, Philadelphia, PA, 2Chemistry, N. Denkov; Department of Chemical Stony Brook University, Stony Brook, NY. Engineering, Sofi a University, Sofi a, BULGARIA. 1:50 128. Infl uence of short-lived radionuclides on charging and aggregation of 137Cs- Foams stabilized by mixtures of 1:50 124. containing particles in the atmosphere.Y. nanoparticles and oppositely charged Kim1, S. Yiacoumi1, 2; 1School of surfactants: Relationship between bubble C. Tsouris Civil and Environmental Engineering, Georgia shrinkage and foam coarsening. 1, A. Maestro institute of technology, Atlanta, GA, 2Oak E. Rio2, W. Drenckhan2, D. Langevin2, A. Ridge National Laboratory, Oak Ridge, TN. Salonen2; 1BSS, Department of Physics, University of Cambridge, Cambridge, UNITED KINGDOM, 2Laboratoire de Physique des 2:10 129. Understanding the role of surface area in nano metal oxide sorption of selenium.A. Solides, Universit Paris Sud 11, Orsay, 1 1 FRANCE. W. Lounsbury , J. Yamani , P. Larese- Casanova2, J. B. Zimmerman1; 1Chemical and Environmental Engineering, Yale University, Coarsening dynamics for individual 2:10 125. New Haven, CT, 2Civil and Environmental bubbles. , D. J. Durian; Physics A. T. Chieco Engineering, Northeastern University, Boston, and Astronomy, University of Pennsylvania, MA. Philadelphia, PA. Zr-based nanoparticle embedded PSF Kinetics of drop breakage and drop- 2:30 130. 2:30 126. blend hollow fi ber membrane for treatment drop coalescence during emulsifi cation in of arsenate and fl uoride contaminated turbulent fl ow. , N. Denkov; S. S. Tcholakova water: material development, adsorption and Department of Chemical Engineering, Sofi a fi ltration studies, and characterization. J. He, University, Sofi a, BULGARIA. J. P. Chen; National University of Singapore, Singapore, SINGAPORE.

68 69 General Papers 2: Assembly Glasses/Jamming 2: Monday, June 23, 2014, 1:30 PM - 3:10 PM Vibrations/Confi nement Towne Heilmeier Monday, June 23, 2014, 1:30 PM - 3:10 PM Skirkanich Berger Organizers: Joelle Frechette, Mike Bevan Presider: M. Bevan Organizers: Rob Riggleman, Andrea Liu, Eric Weeks Presider: C. E. Maloney 1:30 131. Keynote Lecture: Surprising self- assembly of hard spheres and long- 1:30 135. Invited Lecture: A novel method ranged repulsive rods in confi nement. A. for characterizing structural defects van Blaaderen; Physics, Debye Institute, in amorphous solids. S. Wijtmans, M. Utrecht University, Utrecht, NETHERLANDS. Manning; Physics, Syracuse University, Syracuse, NY. 2:10 132. Fast thermoresponsive photonic crystals through soft colloidal particles and depletion. Vibrational modes at the surface of 1 2 1 2:10 136. J. Park , W. B. Rogers , S. Magkiriadou , T. jammed packings. D. Sussman1, A. Liu1, Kodger2, S. Kim3, Y. Kim4, V. N. Manoharan1,2; S. Nagel2; 1University of Pennsylvania, 1Physics, Harvard University, Cambridge, Philadelphia, PA, 2University of Chicago, MA, 2School of Engineering and Applied Chicago, IL. Science, Harvard University, Cambridge, MA, 3Department of Chemical and Biomolecular 2:30 137. Dynamics and mechanical properties Engineering, Korea Advanced Institute of model glass-formers under cylindrical of Science and Technology, Daejeon, confi nement. , R. Riggleman; 4 A. Shavit KOREA, REPUBLIC OF, Korea Electronics Chemical and Biomolecular Engineering, Technology Institute, Seongnam-si, University of Pennsylvania, Philadelphia, PA. Gyeonggi-do, KOREA, REPUBLIC OF. 2:50 138. Spinodal Dewetting of Thin Films Exploring complementarity of colloidal 2:30 133. of Glasses Well below Tg. Z. Fakhraai, and plasma crystals at the individual particle Y. Zhang, T. Liu, Y. Lin, C. Li, W. Zhang; level. M. Chaudhuri, D. A. Weitz; School of Chemistry, University of Pennsylvania, Engineering and Applied Science, Harvard Philadelphia, PA. University, Cambridge, MA.

2:50 134. Kinetic roles of metastability and polydispersity in crystal growth. J. J. Williamson1, M. Evans2; 1Physics, Georgetown University, Washington DC, DC, 2Maths, Leeds University, Leeds, UK, UNITED KINGDOM.

70 71 Molecular Self-Assembly 2 Particles in Interfaces, Fields and Liquid Monday, June 23, 2014, 1:30 PM - 3:10 PM Crystals 2 Cohen Terrace Monday, June 23, 2014, 1:30 PM - 3:10 PM Irvine Amado Organizers: Dan Hammer, Darrin Pochan Presider: D. Pochan Organizers: Tony Dinsmore, Chris Santangelo, Mohamed Gharbi 1:30 139. Self-Assembly of J-Aggregate Presider: A. Fernandez-Nieves Nanotubes for Sensor Applications. J. Fang; Department of Materials Science and 1:30 143. Effect of interface shape on advancing Engineering, University of Central Florida, and receding contact angles around Orlando, FL. spherical beads. N. SENBIL, W. HE, B. DAVIDOVITCH, A. D. DINSMORE; Physics, 1:50 140. Self-assembly and doping of conjugated Umass-Amherst, Amherst, MA. polymer networks for applications in transparent static dissipation coatings. G. 1:50 144. Particle with pinned contact lines on M. Newbloom, V. Hrechka, L. D. Pozzo; curved interfaces: Migration and Alignment. Chemical Engineering, University of N. Sharifi -Mood, L. Yao, I. B. Liu, A. Washington, Seattle, WA. Ravichandran, K. J. Stebe; Chemical and Biomolecular Engineering, University of 2:10 141. Highly conductive pedot pss fi lms and Pennsylvania, Philadelphia, PA. gel for organic electronic applications. C. Badre, A. Alsayed, R. Murphy, L. Hough; 2:10 145. Keynote Lecture: Classical Wigner Solvay Inc, Bristol, PA. Crystals on fl at and curved surfaces, topological defects, `pleats‘ particle 2:30 142. Potential induced on/off single molecule fractionalization and grainboundary switch. S. Afsari, E. Borguet; Chemistry, dynamics. P. Chaikin, W. Irvine, M. Bowick; Temple University, Philadelphia, PA. Physics Department, New York University, New York, NY.

72 73 Patchy and Janus Particles 2: Rheology and Dynamics 2 Patchy and Janus Particles as Functional Monday, June 23, 2014, 1:30 PM - 3:10 PM Materials DRL A7 Monday, June 23, 2014, 1:30 PM - 3:10 PM Organizers: Chinedum Osuji, Kelly Schultz Irvine Café ‘58 Presider: A. Zaccone Organizers: Daeyeon Lee, Alberto Striolo 1:30 151. Keynote Lecture: Building and Presider: V. Garbin breaking large-scale structure in colloidal gels. M. E. Helgeson1, J. Kim1, Y. Gao1, 1:30 146. Irreversible adsorption of patchy D. Merger2; 1Chemical Engineering, colloids on substrates. N. Araujo1, C. Dias2, UC Santa Barbara, Santa Barbara, CA, M. Telo da Gama2; 1ETH Zurich, Zurich, 2Karlsruhe Institute of Technology, Karlsruhe, SWITZERLAND, 2Universidade de Lisboa, GERMANY. Lisbon, PORTUGAL. 2:10 152. Enhanced gel formation in binary 1:50 147. Liquid crystal Janus droplets created mixtures of nanocolloids with short-range by a phase separation of liquid crystals attraction. H. Guo1, M. Bertrand2, S. and polymers. J. Jeong1, A. Gross1, Ramakrishnan3, R. L. Leheny4, J. L. Harden2; P. J. Collings2,1, T. C. Lubensky1, A. G. 1University of California San Diego, La Yodh1;1Physics and Astronomy, University Jolla, CA, 2University of Ottawa, Ottawa, of Pennsylvania, Philadelphia, PA, 2Physics ON, CANADA, 3Florida State University, and Astronomy, Swarthmore College, Tallahassee, FL, 4Johns Hopkins University, Swarthmore, PA. Baltimore, MD.

2:10 148. Electrokinetic Effects in Catalytic Pt- 2:30 153. Direct measurement of bond strength insulator Janus Swimming Devices. D. A. in colloidal depletion gels. K. A. Whitaker1, Gregory1, R. Golestanian2, S. J. Ebbens1; L. C. Hsiao2, M. J. Solomon2, E. M. Furst1; 1Chemical and Biologial Engineering, 1Chemical and Biomolecular Engineering, University of Sheffi eld, Sheffi eld, UNITED University of Delaware, Newark, DE, KINGDOM, 2Rudolf Peierls Centre for 2Chemical Engineering, University of Theoretical Physics, University of Oxford, Michigan, Ann Arbor, MI. Oxford, UNITED KINGDOM. 2:50 154. Stress overshoots and residual 2:30 149. A Janus Particle Magnetometer. B. Ren1, stresses in colloidal glasses: Relation with I. Kretzschmar2,1; 1Department of Chemistry, microscopic structure and dynamics. M. CUNY Graduate Center, New York, NY, Laurati1, N. Koumakis2, G. Petekidis2, 2Department of Chemical Engineering, The M. Fuchs3, C. Amann3, J. F. Brady4, J. City College of New York, New York, NY. Brader5, T. Voigtmann6, S. Egelhaaf1; 1Heinrich-Heine University Düsseldorf, 2:50 150. Self-Assembly of Adaptive Nanoparticle Düsseldorf, GERMANY, 2IESL-FORTH, Amphiphiles with Tunable Valence. H. Lee, Heraklion, GREECE, 3Universität Konstanz, S. Shin, A. M. Drews, A. M. Chirsan, S. A. Konstanz, GERMANY, 4Caltech, Pasadena, Lewis, K. J. Bishop; Chemical Engineering, CA, 5University of Fribourg, Fribourg, Pennsylvania State University, State College, SWITZERLAND, 6DLR, Köln, GERMANY. PA.

74 75 Wetting and Adhesion 2: Wetting on Active Colloids 3: Structured Surfaces Spherical Particles II Monday, June 23, 2014, 1:30 PM - 3:10 PM Monday, June 23, 2014, 3:40 PM - 5:20 PM Levine Wu and Chen DRL A6

Organizers: Shu Yang, Eric Dufresne Organizers: Zvonimir Dogic, Christina Marchetti Presider: H. Yoon Presider: Z. Dogic

1:30 155. Dewetting of liquid-infused surfaces. J. 3:40 160. Active droplets: motion mechanisms and S. Wexler, I. Jacobi, H. A. Stone; Mechanical collective dynamics. S. Thutupalli; Princeton and Aerospace Engineering, Princeton University, Princeton, NJ. University, Princeton, NJ. 4:00 161. Artifi cial Rheotaxis. j. palacci1, S. 1:50 156. Unidirectional spreading on slanted Sacanna2, D. Pine1, P. Chaikin1; 1Physics, nanopillars and their clustering events.H. NYU, CSMR, NYC, NY, 2Chemistry, NYU,, Yoon1, S. Kim2, H. Lee1; 1Seoul National NYC, NY. University of Science & Technology, Seoul, KOREA, REPUBLIC OF, 2Seoul National 4:20 162. Active matter transport and jamming on University, Seoul, KOREA, REPUBLIC OF. disordered landscapes. C. Reichhardt, C. J. Reichhardt; Los Alamos National Laboratory, 2:10 157. In situ surface modifi cation induced Los Alamos, NM. superhydrophobic patterns with reversible wettability and adhesion. J. Huang1, Y. Lai1,2; 4:40 163. Keynote Lecture: Active colloidal 1College of Textile and Clothing Engineering, suspensions, from single particle Suzhou, CHINA, 2National Engineering dynamics to collective phase behavior. Laboratory of Modern Silk, Suzhou, CHINA. L. Bocquet; University of Lyon and MIT, Cambridge, MA. 2:30 158. Bubble adhesions on micropillared super-aerophobic surfaces. R. Ozbay1, A. Kibar2, C. Choi1; 1Mechanical Engineering Department, Stevens Institute of Technology, Hoboken, NJ, 2Department of Mechanical and Material Technologies, Kocaeli University, Kocaeli, TURKEY.

2:50 159. A thermodynamic model for the wetting characteristics of hierarchical physically- patterned surfaces. M. S. Bell1, K. A. Fichthorn2, A. Borhan2; 1Physics, Penn State University, University Park, PA, 2Chemical Engineering, Penn State University, University Park, PA.

76 77 Biocolloids 3: Interactions II Biointerfaces 3: Probes and Techniques Monday, June 23, 2014, 3:40 PM - 5:20 PM Monday, June 23, 2014, 3:40 PM - 5:20 PM Houston Ben Franklin Houston Class of ‘49

Organizers: Dennis Discher, Michael Rubinstein Organizers: Ravi Radakrishnan, Tobias Baumgart Presider: S. Fraden Presider: N. Ramakrishnan

3:40 164. Bridging interactions of proteins 3:40 169. Amphiphilic Carbon Quantum Dots with silica nanoparticles. B. Bharti1,2, J. Light Up Membranes and Cells. R. Jelinek, Meissner2, G. H. Findenegg2; 1North Carolina S. Nandi; Chemistry, Ben Gurion University, State University, Raleigh, NC, 2Technische Beer Sheva, ISRAEL. Universitaet Berlin, Berlin, GERMANY. 4:00 170. Accurate optical detection of lipids and 4:00 165. Binding large globular particles to proteins at the liquid crystal-aqueous solution long polymer chains. A. Souslov1, J. E. interface. P. Popov1, E. E. Kooijman2, E. K. Curtis1,2, P. M. Goldbart1; 1School of Physics, Mann1, A. Jakli3; 1Department of Physics, Georgia Institute of Technology, Atlanta, GA, Kent State University, Kent, OH, 2Department 2Parker H. Petit Institute of Bioengineering of Biology, Kent State University, Kent, OH, and Bioscience (IBB), Georgia Institute of 3Liquid Crystal Institute, Kent State University, Technology, Atlanta, GA. Kent, OH.

4:20 166. Novel biocolloids based on strong 4:20 171. Quantifying Phagocytosis with intermolecular interactions between polymers Opsonized Lipid Microdroplets J. and low molecular weight molecules. K. FATTACCIOLI; Ecole Normale Supérieure, P. Velikov1,2; 1Unilever R&D Vlaardingen, Paris, FRANCE. Vlaardingen, NETHERLANDS, 2Soft Condensed Matter, Debye Institute for 4:40 172. Assessment of surfactants for effi cient Nanomaterials Science, Utrecht University, droplet PCR in mineral oil using the Utrecht, NETHERLANDS. pendant drop technique. K. R. Pandit1, S. R. Raghavan1, I. M. White2; 1Department of 4:40 167. Diffusing Colloidal Probes of Cancer Chemical and Biomolecular Engineering, Cells. G. Duncan, M. Bevan; Chemical and University of Maryland College Park, Biomolecular Engineering, Johns Hopkins, College Park, MD, 2Fischell Department Baltimore, MD. of Bioengineering, University of Maryland College Park, College Park, MD. 5:00 168. CELLULOSE NANOCRYSTALS WITH TUNABLE SURFACE CHARGE 5:00 173. FRAM (fl uorescence recovery after FOR BIOMEDICAL APPLICATIONS. Z. merging): A new insight into mutual diffusion Hosseinidoust1, M. A. Alam2, G. Sim2, of phospholipids at fl uid/fl uid interfaces. S. Q. N. Tufenkji1, T. van de Ven2; 1Chemical Choi; KAIST, Daejon, KOREA, REPUBLIC Engineering, Mcgill, montreal, QC, CANADA, OF. 2Chemistry, Mcgill, montreal, QC, CANADA.

78 79 Colloidal and Surface Forces 3: Films 5:00 178. Controlling local packing, growth and mechanics in colloidal calcium silicate Monday, June 23, 2014, 3:40 PM - 5:20 PM hydrate gels. E. Del Gado1,2, K. Ioannidou3, College Hall 200 E. Masoero4, S. Yip5, P. Levitz6, R. Pellenq7, F. Ulm3; 1Physics, Georgetown University, Eric Furst, Ray Dagastine Organizers: Washington, DC, 2Civil, Environmental and D. J. Beltran-Villegas Presider: Geomatic Engineering, ETH Zurich, Zurich, SWITZERLAND, 3Civil and Environmental Evaporation of sessile drops: effect 3:40 174. Engineering, MIT, Boston, MA, 4Civil of particle shape and DLVO interactions Engineering, University of Newcastle, on pattern formation. V. Dugyala, M. G. Newcastle, UNITED KINGDOM, 5Nuclear ; Department of Chemical Basavaraj Science and Engineering, MIT, Boston, MA, Engineering, Indian Institute of Technology 6PECSA, Universite Pierre et Marie Curie, Madras, Chennai, INDIA. Paris, FRANCE, 7Civil and Environmental Engineering, MIT and CNRS, Boston, MA. 4:00 175. The evaporation of a capillary bridge between a particle and a substrate M. Neeson1,2, R. Tabor2,3, F. Grieser2,4, R. Dagastine2,5, D. Chan1,2; 1Department of Mathematics and Statistics, The University of Melbourne, Parkville, Victoria 3010, AUSTRALIA, 2Particulate Fluids Processing Centre, The University of Melbourne, Parkville, Victoria 3010, AUSTRALIA, 3School of Chemistry, Monash University, Clayton, Victoria 3800, AUSTRALIA, 4School of Chemistry, The University of Melbourne, Parkville, Victoria 3010, AUSTRALIA, 5Department of Chemical and Biomolecular Engineering, The University of Melbourne, Parkville, Victoria 3010, AUSTRALIA.

4:20 176. Aggregation of inkjet ink components by Mg2+ and Ca2+ salts in relation to inkjet print quality. A. Oko1, A. Swerin1, B. D. Brandner1, D. Bugner2, W. Cook3, P. M. Claesson4; 1Chemistry, Materials and Surfaces, SP Technical Research Institute of Sweden, Stockholm, SWEDEN, 2Eastman Kodak Company, Rochester, NY, 3Eastman Kodak Company, Dayton, OH, 4Surface and Corrosion Science, KTH Royal Institute of Technology, Stockholm, SWEDEN.

4:40 177. Reconfi gurable self-repairing magnetic chains bound by nanocapillary interactions. B. Bharti1, A. Fameau2, O. D. Velev1; 1North Carolina State University, Raleigh, NC, 2INRA, National Institute of French Agricultural Research, Nantes, FRANCE.

80 81 Directed Assembly 3: Self-Assembly Electrokinetics: Polarizable Particles and Monday, June 23, 2014, 3:40 PM - 5:20 PM Membranes Meyerson B1 Monday, June 23, 2014, 3:40 PM - 5:20 PM DRL A5 Organizers: Cherie Kagan, Vinothan Manoharan Presider: C. B. Murray Organizers: Darrell Velegol, Aditya Khair Presider: A. Khair 3:40 179. In situ electron microscopy of colloid aggregation and liquid-vapor interfacial 3:40 183. Chaotic Induced-Charge Electro- phenomena. N. M. Schneider1, W. Lee1, J. M. Osmosis. S. M. Davidson, M. B. Andersen, 1 2 1 1 Grogan , F. M. Ross , H. H. Bau ; Mechanical A. Mani; Mechanical Engineering, Stanford Engineering and Applied Mechanics, University, Palo Alto, CA. University of Pennsylvania, Philadelphia, PA, 2IBM T. J. Watson Research Center, Yorktown 4:00 184. Electroconvection in Heterogeneous Heights, NY. Permselective Systems. Y. Green, N. Leibowitz, J. Schiffbauer, S. Park, G. 4:00 180. Onion-like polymer capsules with Yossifon; Mechanical Engineering, Technion multiple concentric shells. B. C. Zarket, S. - Israel Institute of Technology, Haifa, Antozewski, T. Coyne, S. R. Raghavan; ISRAEL. Chemical & Biomolecular Engineering, University of Maryland - College Park, 4:20 185. Diffusiophoretic transport alters colloidal College Park, MD. fouling of membranes. R. Guha, A. Kar, M. Kumar, D. Velegol; Chemical Engineering, 4:20 181. Supracolloidal self-assembly of Pennsylvania State University, State College, composite microgels. J. J. Crassous, A. M. PA. Mihut, P. Schurtenberger; Physical Chemistry, Department of Chemical Engineering, Lund 4:40 186. Keynote Lecture: Electrokinetics University, Lund, SWEDEN. with tailored porous materials: direct, in situ measurement of phoretic migration, 4:40 182. Keynote Lecture: Colloid Design for and nonlinear electrokinetic pumps. T. M. Directed Assembly through Computational Squires1, J. Paustian1, R. Nery Azevedo1, Alchemy. S. Glotzer; Chemical Engineering, A. Pascall2; 1UCSB Chemical Engineering, University of Michigan, Ann Arbor, MI. Santa Barbara, CA, 2Lawrence Livermore National Laboratory, Livermore, CA.

82 83 Emulsions, Bubbles and Foams 3: Environmental Science 3 Tailoring Emulsion Stability with Particles Monday, June 23, 2014, 3:40 PM - 5:20 PM Monday, June 23, 2014, 3:40 PM - 5:20 PM Houston Golkin DRL A1 Organizers: Daniel Strongin, Howard Fairbrother Organizers: Doug Durian, Jasna Brujic Presider: H. Fairbrother Presider: A. Maestro 3:40 192. Keynote Lecture: Multifunctional 3:40 187. Novel Classes of Multi-Stimuli Nanoscale Material Platforms for Responsive Pickering Foams.S. Lam1, E. Advanced Water Treatment and Blanco1, S. K. Smoukov1, K. P. Velikov2, Environmental Sensing. J. D. Fortner, P. S. A. Khan1, A. L. Fameau3, O. D. Velev1; Biswas, W. Li, S. Lee, W. Wang, Y. Jiang; 1Chemical & Biomolecular Engineering, Energy, Environmental and Chemical North Carolina State University, Raleigh, NC, Engineering, Washington University in St. 2Soft Condensed Matter, Debye Institute for Louis, St. Louis, MO. Nanomaterials, Utrecht University, Utrecht, NETHERLANDS, 3Biopolymères Interactions 4:20 193. Simultaneous redox transformation of Assemblages, INRA, Nantes, FRANCE. As(III) and Cr(VI) on environmentally relevant surfaces. E. B. Cerkez1, N. Bhandari1, A. 1 2 1 4:00 188. Interfacial affi nity of microgels and Thenuwara , R. J. Reeder , D. R. Strongin ; consequences for Pickering emulsions. 1Chemistry, Temple University, Philadelphia, M. 2 Kwok, T. Ngai; Chemistry, The Chinese PA, Geosciences, Stony Brook University, University of Hong Kong, Hong Kong, HONG Stony Brook, NY. KONG. 4:40 194. Arsenic removal from groundwater 4:20 189. Limited coalescence model for using iron-copper oxide nanocomposites. Y. emulsions stabilized by oppositely charged Babaee, C. Mulligan, M. Rahaman; Building colloids. T. Nallamilli, M. Basavaraj, E. Mani; ,Civil &Environmental Engineering, Concordia Chemical Engineering, Indian Institute of University, Montreal, QC, CANADA. Technology Madras, Chennai, INDIA. 5:00 195. Adsorptive removal of arsenate from 4:40 190. Tailored emulsion stability by the aqueous solution by Y-Mn binary oxide. Y. YU, interfacial rheology of rough nanoparticles. R. L. YU, J. P. Chen; Civil and Environmental Van Hooghten1, R. Sharma2, J. Vermant1,3; Engineering, National University of 1Department of Chemical Engineering, Singapore, Singapore, SINGAPORE. KU Leuven, Heverlee, BELGIUM, 2Cabot Corporation, Billerica, MA, 3Department of Materials, ETH, Zürich, SWITZERLAND.

5:00 191. Analysis of foam stability in porous media. S. L. Biswal; Chemical Engineering, Rice University, Houston, TX.

84 85 General Papers 3: Interactions Glasses/Jamming 3: Monday, June 23, 2014, 3:40 PM - 5:20 PM Vibrations/Active Materials Towne Heilmeier Monday, June 23, 2014, 3:40 PM - 5:20 PM Skirkanich Berger Organizers: Joelle Frechette, Mike Bevan Presider: M. Bevan Organizers: Rob Riggleman, Andrea Liu, Eric Weeks Presider: M. Manning 3:40 196. Invited Lecture: Interactions between Immobilized Protein Coatings 3:40 201. Soft modes and non-affi ne measured using AFM and TIRM at High rearrangements in the inherent structures 1 2 Ionic Strength. T. Balasuriya , B. Berger , of supercooled liquids. E. Del Gado1,2, A. Lenhoff3, S. I. Sandler3, R. Dagastine1; M. Mosayebi3, A. Widmer-Cooper4, P. 1Chemical and Biomolecular Engineering, Ilg5,6; 1Physics, Georgetown University, The University of Melbourne, Melbourne, Washington, DC, 2Civil, Environmental and AUSTRALIA, 2Chemical Engineering, Lehigh Geomatic Engineering, ETH Zurich, Zurich, University, Bethlehem, PA, 3Chemical and SWITZERLAND, 3Physics, Oxford University, Biomolecular Engineering, University of Oxford, UNITED KINGDOM, 4Chemistry, Delware, Newark, DE. University of Sidney, Sidney, AUSTRALIA, 5Applied Mathematics, University of Reading, 4:00 197. Near-fi eld light scattering particle Reading, UNITED KINGDOM, 6Materials, characterization technique utilizing optical ETH Zurich, Zurich, SWITZERLAND. gradient forces. P. Schein, D. Erickson; Sibley School of Mechanical and Aerospace 4:00 202. Keynote Lecture: Nonequilibrium Engineering, Cornell University, Ithaca, NY. structures and glassy dynamics in dense systems of active and living particles. 4:20 198. Macroion Interaction with Lipid L. Berthier; Universite Montpellier 2, and Polymer Vesicles. Y. Zhu, B. Jing; Montpellier, FRANCE. Department of Chemical and Biomolecular Engineering, University of Notre Dame, Notre 4:40 203. Glassy dynamics of self-propelled Dame, IN. particles. G. Szamel1, E. Flenner1, L. Berthier2; 1Department of Chemistry, 4:40 199. Keynote Lecture: Lubrication and Colorado State University, Fort Collins, CO, wet adhesion in the presence of draining 2Laboratoire Charles Coulomb, Universite channels. J. Frechette, C. Dhong; Johns Montpellier II, Montpellier, FRANCE. Hopkins University, Baltimore, MD.

5:00 200. Unraveling the physical pathways and energetics of the thermally-induced structural evolution of hydrogenated amorphous carbon surfaces. F. Mangolini1, J. Hilbert2, J. McClimon1, J. R. Lukes2, R. W. Carpick2; 1Department of Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 2Department of Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

86 87 Molecular Self-Assembly 3 Particles in Interfaces, Fields and Liquid Monday, June 23, 2014, 3:40 PM - 5:20 PM Crystals 3 Cohen Terrace Monday, June 23, 2014, 3:40 PM - 5:20 PM Irvine Amado Organizers: Dan Hammer, Darrin Pochan Presider: D. Pochan Organizers: Tony Dinsmore, Chris Santangelo, Mohamed Gharbi 3:40 204. Single-step high fi delity fabrication of Presider: N. Sharifi -Mood semiconductor nanorods with controlled geometries using block copolymer templates. 3:40 209. Adsorption and Marangoni Transport of C. I. Pelligra, S. Huang, C. O. Osuji; Yale Colloidal Particles. G. Dunér1, R. D. Tilton1,2, University, New Haven, CT. S. Garoff3, T. M. Przybycien1,2; 1Chemical Engineering, Carnegie Mellon University, 4:00 205. Direct monitoring of the exchange Pittsburgh, PA, 2Biomedical Engineering, kinetics between diblock copolymer micelles Carnegie Mellon University, Pittsburgh, by Fluorescence Correlation Spectroscopy. PA, 3Physics, Carnegie Mellon University, D. Schaeffel, R. Staff, A. Kreyes, Y. Zhao, Pittsburgh, PA. K. Landfester, H. Butt, D. Crespy, K. Koynov; Max Planck Institute for Polymer Research, 4:00 210. DYNAMICS OF JANUS COLLOID Mainz, GERMANY. ADSORPTION TO LIQUID-LIQUID INTERFACES. S. Razavi1, A. Wang2, V. N. 4:20 206. paper withdrawn. Manoharan2, J. Koplik3, I. Kretzschmar1; 1Department of Chemical Engineering, City 4:40 207. RAFT dispersion polymerization in College of New York, New York, NY, 2School non-polar solvents: facile production of of Engineering and Applied Sciences, Harvard block copolymer spheres, vesicles and University, Cambridge, MA, 3Benjamin Levich thermo-responsive worms in n-alkanes. L. A. Institute and Department of Physics, City Fielding, J. A. Lane, M. J. Derry, S. P. Armes; College of New York, New York, NY. Department of Chemistry, The University of Sheffi eld, Sheffi eld, UNITED KINGDOM. 4:20 211. Absorption and assembly at all-aqueous interfaces with ultralow interfacial tension. 5:00 208. Morphologies of a diblock copolymer A. Shum1,2, Y. Song1,2, J. Li1; 1Department droplet in a homogeneous polymer mixture. of Mechanical Engineering, University of D. Q. Ly, C. Makatsoris; Brunel University, Hong Kong, Hong Kong, HONG KONG, London, UNITED KINGDOM. 2HKU-Shenzhen Institute of Research and Innovation (HKU-SIRI), Shenzhen, CHINA.

4:40 212. Effect of surface-modifi ed silica nanoparticles on interfacial tension between poly (lactic acid) melts and supercritical carbon dioxide. K. Sarikhani1, R. P. Thompson2, C. B. Park3, P. Chen1; 1Chemical Engineering and Waterloo Institute for Nanotechnology, University of Waterloo, Waterloo, ON, CANADA, 2Department of Physics and Astronomy and Waterloo Institute for Nanotechnology, University of Waterloo, Waterloo, ON, CANADA, 3Mechanical and Industrial Engineering, University of Toronto, Toronto, ON, CANADA.

88 89 5:00 213. Measurements and models of reversible Patchy and Janus Particles 3: Assembly adsorption of nanoparticles at oil-water and Phase Behavior of Patchy Colloids interface. X. Hua, M. Bevan, J. Frechette; Chemical and Biomolecular Engineering, Monday, June 23, 2014, 3:40 PM - 5:20 PM Johns Hopkins University, Baltimore, MD. Irvine Café ‘58

Organizers: Daeyeon Lee, Alberto Striolo Presider: Z. Nie

3:40 214. Keynote Lecture: Unconventional Behavior of Patchy Colloids. F. Sciortino; Physics Department, Sapienza Universita’ di Roma, Rome, ITALY.

4:20 215. Phase behavior under a non- centrosymmetric interaction: shifted charge colloids investigated by Monte Carlo simulation. L. E. Sanchez Diaz, Sr.1, C. Shew2, W. Chen3; 1Biology and Soft matter Division, Oak Ridge National Lab, oak ridge, TN, 2Department of Chemistry, College of Staten Island, City University of New York, NY, 3Biology and Soft matter Division, Oak Ridge National Lab, Oak Ridge, TN.

4:40 216. Versatile (anisotropic) colloidal platform with tunable surface chemistry & interactions. B. G. van Ravensteijn, W. K. Kegel; Chemistry, Utrecht University, Utrecht, NETHERLANDS.

5:00 217. Engineering patchy nanoparticles of controlled morphology and functionality for directed assembly. C. Chomette1, A. Désert1, C. Hubert2, A. Perro-Marre3, A. Crut4, E. Pertreux4, N. Del Fati4, F. Vallée4, S. Mornet1, S. Ravaine2, E. Duguet1, M. Tréguer- Delapierre1; 1ICMCB-CNRS Univ. Bordeaux, Bordeaux, FRANCE, 2CRPP-CNRS Univ. Bordeaux,, Bordeaux, FRANCE, 3ISM Univ. Bordeaux,, Bordeaux, FRANCE, 4LASIM Univ. Lyon, Lyon, FRANCE.

90 91 Rheology and Dynamics 3 Wetting and Adhesion 3: Monday, June 23, 2014, 3:40 PM - 5:20 PM Wetting and Condensation DRL A7 Monday, June 23, 2014, 3:40 PM - 5:20 PM Levine Wu and Chen Organizers: Chinedum Osuji, Kelly Schultz Presider: J. Gilchrist Organizers: Shu Yang, Eric Dufresne Presider: R. Gupta 3:40 218. Linear viscoelasticity of soft glassy materials. Y. M. Joshi; Indian Institute of 3:40 223. Condensation growth mechanics during Technology Kanpur, Kanpur, INDIA. breath fi gure formation on Lubricants and Lubricant Impregnated Surfaces. S. Anand1, 4:00 219. Responses of soft colloidal star-like K. Rykaczewski2, S. B. Subramanyam1, micelle suspensions to large-amplitude D. Beysens3, K. Varanasi1; 1Mechanical oscillatory shearing. S. Rogers1, S. Gupta2; Engineering, Massachusetts Institute of 1Chemical Biomolecular Engineering, Technology, Cambridge, MA, 2Mechanical University of Delaware, Newark, DE, 2JCNS- Engineering, Arizona State University, Tempe, SNS, Oak Ridge National Laboratory, Oak AZ, 3CEA-ESEME, ESPCI-PMMH, PARIS, Ridge, TN. 4:20 FRANCE.

4:20 220 Examination of the role of contact 4:00 224. Wetting of cryogenic liquids: van der friction in shear thickening and the jamming Waals interactions and fi lm thickness. R. 1 2 2 transition. J. F. Morris , R. Mari , R. Seto , Gupta1, P. A. Houghton2, D. Lee1, G. A. M. M. Denn1; 1Levich Institute and Chemical Meski2, K. J. Stebe1, S. Swaminathan2; Engineering, City College of New York, New 1Chemical and Biomolecular Engineering, York, NY, 2Levich Institute, City College of University of Pennsylvania, Philadelphia, PA, New York, New York, NY. 2Air Products and Chemicals Inc., Allentown, PA. 4:40 221 Analyse the simultaneous appear- ance of gradient and vorticity shear bands 4:20 225. Acrylic Copolymer Coatings with by using Time-Resolved Rheo-SANS and Excellent Antifogging and Frost-Resisting laser-light transmittance measurements. Properties. J. Zhao, W. Ming; Chemistry, A. Mütze, P. Heunemann, P. Fischer; Food Georgia Southern University, Statesboro, GA. Process Engineering, ETH Zurich, Zürich, SWITZERLAND. 4:40 226. Anti-icing and anti-frost properties of superhydrophobic nano-textured surfaces. 5:00 222. Viscoelasticity of a colloidal gel during S. Bengaluru Subramanyam, K. Varanasi; dynamical arrest: evolution through a Massachusetts Institute of Technology, critical gel state and comparison with a soft Cambridge, MA. colloidal glass. C. Osuji1, A. Negi2, C. G. 3 3 1 Redmon , S. Ramakrishnan ; Chemical and 5:00 227. Studies on the Wetting Films of Environmental Engineering, Yale University, Water Formed on Bitumen, Asphaltene, 2 New Haven, CT, Physics, IISER-Bhopal, and Maltene. J. Ma, R. Yoon; Center for Bhopal, INDIA, 3Chemical and Biomedical Advanced Separation Technologies, Virginia Engineering, FAMU-FSU College of Tech, Blacksburg, VA. Engineering, Tallahassee, FL.

92 93 Poster Session: Bio-Colloids 5:30 233. Impedimetric biosensors for detecting VEGF based on PEDOT/Au nanoparticle Monday, June 23, 2014, 5:30 PM - 7:30 PM composites. M. Kim1, R. Iezzi, Jr.2, D. C. Houston Bodek Lounge Martin1; 1Materials Science and Engineering, University of Delaware, Newark, DE, Ilona Kretzschmar, Raymond Tu, Valeria Organizers: 2Ophthalmology, Mayo Clinic, Rochester, MN. Garbin, Lorenzo Botto Presider: R. Tu 5:30 234. Role of Biopolymer Particles in the Effi cient Stabilization of Pickering Foams. FRET based kinetics and S. 5:30 228. 1, H. Fauser2, M. Uhlig2, R. v. Klitzing2, thermodynamics study revealed auto- Lam O. D. Velev1; 1Chemical & Biomolecular inhibition mechanism in endophilin A1. Z. Engineering, North Carolina State University, , K. Chang, B. R. Capraro, C. Zhu, C. Chen Raleigh, NC, 2Stranski Laboratory for Physical Hsu, T. Baumgart; Chemistry, University of and Theoretical Chemistry, Institute of Pennsylvania, Philadelphia, PA. Chemistry, Technical University Berlin, Berlin, GERMANY. 5:30 229. Protein-Spanning Water Networks and Implications for Ubiquitous, Weak Protein- Recombinant protein-stabilized Protein Interactions Mediated through 5:30 235. microbubbles for antivascular ultrasound Hydrophobic Effects. ; University of D. Cui theranostics. 1, K. Vargo1, D. A. Delaware, Newark, DE. F. E. Angilè Hammer1, C. M. Sehgal2, D. Lee1; 1Chemical and Biomolecular Engineering, University of The combined effects of surface 5:30 230. Pennsylvania, Philadelphia, PA, 2Radiology, chemistry and nanoscale topography University of Pennsylvania School of on biofi lm nucleation in Pseudomonas Medicine, Philadelphia, PA. aeruginosa. J. Zhang1, J. Huang2, C. Say1, R. L. Dorit3, K. Queeney4; 1Biochemistry, Smith Thermodynamics of cell-penetrating College, Northampton, MA, 2Engineering, 5:30 236. peptides translocation and transient pore Smith College, Northampton, MA, 3Biological and cavity formation of model lipid bilayers. Sciences, Smith College, Northampton, MA, , S. Sinha, X. Liu, S. Patel; Department 4Chemistry, Smith College, Northampton, MA. Y. Hu of Chemistry and Biochemistry, University of Delaware, Newark, DE. 5:30 231. Size and Count Analysis of Fluorescently Labeled Nanoparticles In Complex Biological Kinetics of oxygen transport between Media. 1, D. Griffi ths2, J. Munhall1, 5:30 237. A. Morfesis calcium phosphate coated emulsion S. Capracotta1; 1Malvern Instruments, and hemoglobin. 1, C. Takagi1, H. Westborough, MA, 2Malvern Instruments, K. Han Mizukami2, A. Ostafi n3,4,2; 1Materials Science Rancho Cucamonga, CA. and Engineering, University of Utah, Salt Lake City, UT, 2Nanoshell Co., Layton, UT, Enhancement of the spreading 5:30 232. 3Chemical Engineering, University of Utah, of phospholipids on liquid subphases Salt Lake City, UT, 4Nano Institute, University via aerosolization. 1, T. E. A. Z. Stetten of Utah, Salt Lake City, UT. Corcoran2, S. Garoff1, T. Przybycien3, R. D. Tilton3; 1Physics, Carnegie Mellon University, Nano-bio interactions at lung surfactant Pittsburgh, PA, 2Medicine, University of 5:30 238. fi lms. , Y. Y. Zuo; Mechanical Pittsburgh, Pittsburgh, PA, 3Chemical R. P. Valle Engineering, University of Hawaii, Honolulu, Engineering and Biomedical Engineering, HI. Carnegie Mellon University, Pittsburgh, PA.

5:30 239. Correlated phase separation in stacked lipid membranes. T. Hoshino1, S. Komura1, D. Andelman2; 1Department of Chemistry, Tokyo Metropolitain University, Tokyo, JAPAN, 2School of Physics and Astronomy, Tel Aviv University, Tel Aviv, ISRAEL.

94 95 5:30 240. Novel Plasmonic Nanostructures for 5:30 248. Monocyte labeling with gold Single Molecule Surface-Enhanced Raman nanoparticles: Effect of core size on cell Scattering and Bio Applications. D. Lim; uptake. B. Benardo1, P. Chhour2, P. C. Naha2, BIN Fusion Technology, Chonbuk National M. P. Reilly2, V. A. Ferrari2, D. P. Cormode2; University, Jeonju, KOREA, REPUBLIC OF. 1Biomedical Engineering, Drexel University, Philadelphia, PA, 2Bioengineering, University 5:30 241. Role of surface properties in initial of Pennsylvania, Philadelphia, PA. attachment of bacteria. S. Sharma, J. Conrad; University of Houston, Houston, TX. 5:30 249. Free energetics of cell penetrating peptide translocation into POPC/POPG 5:30 242. Design principles for accelerating the membrane and membrane softening effect high-yield self-assembly of biomolecular induced by peptide binding. X. Liu; University complexes. J. Zenk1, R. Schulman2; of Delaware, Newark, DE. 1Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD, 5:30 250. Regulation of membrane curvature 2Chemical and Biomolecular Engineering and sensing & generating through the BAR Computer Science, Johns Hopkins University, domain protein BIN1 via intra-molecular Baltimore, MD. autoinhibition. T. Wu, T. Baumgart; Chemistry Department, University of Pennsylvania, 5:30 243. Docetaxel-Doped Calcium Philadelphia, PA. Phosphosilicate Nanoparticles in Treatment of Breast Cancer. X. Tang; Chemistry, 5:30 251. Free-standing and tethered lipid bilayers Pennsylvania State University, State College, as a model system to study protein-induced PA. membrane protrusion. K. I. Jankowska1, N. Li2, K. J. Stebe2, T. Baumgart1; 1Department 5:30 244. Directed assembly of functional Au of Chemistry, University of Pennsylvania, nanostructures on amphiphilic peptide Philadelphia, PA, 2Department of Chemical scaffolds formed at the air/water interface. and Biomolecular Engineering, University of R. Jelinek, T. Vinod; Chemistry, Ben Gurion Pennsylvania, Philadelphia, PA. University, Beer Sheva, ISRAEL.

5:30 245. Shape changes in hybrid hydrogels: Mimicking biological processes in plants. A. Gargava1, R. Ragunathan2, S. R. Raghavan1; 1Chemical and Biomolecular Engineering, University of Maryland College Park, College Park, MD, 2Fischell Department of Bioengineering, University of Maryland College Park, College Park, MD.

5:30 246. Near infrared radiation transmission through porcine muscle tissue. M. Li, X. Tang, J. Adair, B. Adair; Materials Science and Engineering, Penn State, state college, PA.

5:30 247. Molecular Relaxation of Pharmaceutical Glasses. D. Wang, J. Heng, D. Williams; Department of Chemical Engineering, Imperial College London, London, UNITED KINGDOM.

96 97 Poster Session: 5:30 257. Fabrication of binary superlattice with Fundamentals of Colloids quantum dots formed by cation exchange. Y. Wu 1, B. Diroll1, A. Gaulding2; 1Chemistry, Monday, June 23, 2014, 5:30 PM - 7:30 PM University of Pennsylvania, Philadelphia, Houston Hall of Flags PA, 2Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA. Organizers: Ilona Kretzschmar, Raymond Tu, Valeria Garbin, Lorenzo Botto 5:30 258. Interfacial molarities of gemini micelles Presider: I. Kretzschmar with different counterions: Ion specifi c effects by chemical trapping. C. Liu1, A. Malinenko2, 5:30 252. Synthetic tuning of heterostructured L. S. Romsted1, M. Porrini2, R. Oda2, M. nanoparticles for catalytic applications. Laguerre2; 1Chemistry and Chemical Biology, S. Zhang, V. Doan-Nguyen, Y. Hao, Rutgers, The State University of New Jersey, C. B. Murray; Chemistry, University of Piscataway, NJ, 2Institut Europe´en de Chimie Pennsylvania, Philadelphia, PA. et Biologie, University of Bordeaux, Bordeaux, FRANCE. 5:30 253. Gold nanorod linking to control plasmonic properties in solution and polymer Interfacial behavior of Janus particles 1 5:30 259. nanocomposites. R. C. Ferrier, Jr. , M. with controlled undulation in wettability 2 3 4 5 Eibling , G. Gines , H. Lee , M. J. Hore , M. separation line. , D. Lee; Chemical 5 6 3 A. Kumar Caporizzo , D. M. Eckmann , P. Rannou , D. & Biomolecular Engineering, University of 3 2 5 Gasparutto , J. G. Saven , R. J. Composto ; Pennsylvania, Philadelphia, PA. 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, Concentration of particle suspensions in 2 5:30 260. PA, Chemistry, University of Pennsylvania, microfl uidic droplet arrays. S. M. Vuong1, 3 B. J. Philadelphia, PA, CEA / INAC, Grenoble, 1, S. L. Anna2, L. M. Walker1; 1Chemical 4 Bleier FRANCE, University of Pennsylvania, Engineering, Carnegie Mellon University, 5 Philadelphia, PA, Materials Science and Pittsburgh, PA, 2Chemical Engineering and Engineering, University of Pennsylvania, Mechanical Engineering, Carnegie Mellon 6 Philadelphia, PA, Institute of Medicine and University, Pittsburgh, PA. Engineering, University of Pennsylvania, Philadelphia, PA. 5:30 261. Clay particles in aqueous biphasic systems. F. Pir-Cakmak, C. D. Keating; 5:30 255. Dynamics of polymer-grafted Chemistry, Penn State, State College, PA. nanoparticle in polymer melts. C. Lin1, K. Ohno2, N. Clarke3, K. I. Winey1, R. Spatially heterogeneous dynamics in J. Composto1; 1Materials Science and 5:30 262. dense colloidal suspensions with short-range Engineering, University of Pennsylvania, attractive potential. , P. Habdas, Philadelphia, PA, 2Kyoto University, Kyoto, Z. J. Brown M. Iwanicki, G. Hogan; Physics, Saint JAPAN, 3University of Sheffi eld, Sheffi eld, Josephs University, Philadelphia, PA. UNITED KINGDOM.

5:30 256. Tunability of gold nanoparticles surface chemistry. L. Malassis1, P. Liu1, S. Ke1, R. Dreyfus2, R. Murphy2, B. Donnio2, L. Hough2, C. Murray1; 1Department of Chemistry, University of Pennsylvania, Philadelphia, PA, 2Complex Assemblies of Soft Matter Laboratory, UMI 3254 (CNRS-Rhodia/Solvay- University of Pennsylvania), Bristol, PA.

98 99 5:30 263. Living Clusters in Suspensions of Active 5:30 268. Spontaneous deposition of noble metal Colloids. B. M. Mognetti1, A. Saric2, S. nanostructures into surface-functionalized Angioletti-Uberti3, A. Cacciuto4, C. Valeriani5, highly open porous polymer microspheres. D. Frenkel2; 1Département de Physique, H. Son1, D. Lee2, J. Lee3, C. Park3, H. Ryoo3, Universite Libre de Bruxelles, Bruxelles, Y. Nam1,4; 1Department of Materials Science BELGIUM, 2Department of Chemistry, and Engineering, Korea Advanced Institute of University of Cambridge, Cambridge, UNITED Science and Technology, Daejeon, KOREA, KINGDOM, 3Institute of Physics, Humboldt REPUBLIC OF, 2Department of Chemical and University of Berlin, Berlin, GERMANY, Biomolecular Engineering, Korea Advanced 4Department of Chemistry, Columbia Institute of Science and Technology, University, New York, NY, 5Departamento de Daejeon, KOREA, REPUBLIC OF, 3COSMAX Química Física, Universidad Complutense de Research & Innovation Center, Seongnam, Madrid, Madrid, SPAIN. KOREA, REPUBLIC OF, 4KAIST Institute for NanoCentury (KINC) and BioCentury (KIB), 5:30 264. Bi-directional assembly of colloidal Korea Advanced Institute of Science and particle by combined electric and magnetic Technology, Daejeon, KOREA, REPUBLIC fi elds. B. Bharti1, F. Kogler2, S. H. Klapp2, OF.. 5:30 C. Hall1, O. D. Velev1; 1North Carolina State University, Raleigh, NC, 2Technische 5:30 269. Impact of colloidal deposition on the Universitaet Berlin, Berlin, GERMANY. fouling of osmotically driven membrane process. K. Garrido1, A. Jang2, S. Kang1; 5:30 265. Study on the effect of particle anisotropy 1Civil Engineering, Kyung Hee University, on phase behavior with tunable attractive Yongin-si, KOREA, REPUBLIC OF, strength. Y. S. Kim, N. J. Wagner; University 2Architechture and Civil Engineering, of Delaware, Newark, DE. Sungkyunkwan University, Suwon-si, KOREA, REPUBLIC OF. 5:30 266. Synthesis and Application of Colloidal Dimers. S. Wang, N. Wu; Chemical and 5:30 270. Polymerisation of CdSe@ZnS doped biological engineering, Colorado School of PMMA spheres in non-polar solvents. Mines, Golden, CO. J. Tongkhundam; Physical chemistry, University of Bristol, Bristol, UNITED 5:30 267. Assembly of “Anisotropic” Colloidal KINGDOM. Dimers and Spheres Under Applied Electric Fields. f. ma1, s. wang1, H. Zhao2, D. Wu3, N. 5:30 271. Packing manipulation of colloidal and Wu1; 1chemical and biological engineerning, molecular crystals using imprinted structures. colorado school of mines, golden, CO, X. Zhong, S. Lee, M. Ward; Chemistry, New 2Department of Mechanical Engineering, York University, New York, NY. University of Nevada, Las Vegas, Las Vegas, NV, 3chemistry and geochemistry, colorado 5:30 272. Uniform shape-controlled polymer school of mines, golden, CO. microparticles synthesized by using poly (ethylene oxide)-b-poly (ε-caprolactone) block copolymer stabilizer. S. Acter, J. Kim*; Hanyang University, 55 hanyangdaehak-ro, sangnok-gu, ansan, KOREA, REPUBLIC OF.

5:30 273. Directed assembly of nanocylinders in electrical fi elds. S. J. Boehm1, L. Lin2, T. S. Mayer2, C. D. Keating1; 1Chemistry, Pennsylvania State University, University Park, PA, 2Electrical Engineering, Pennsylvania State University, University Park, PA.

100 101 5:30 274. Surfactant micelle characterization using 5:30 280. Colloidal interactions of surface dynamic light scattering. A. Morfesis1, M. wettability-controlled silica/polymer McGann1, M. Kaszuba2; 1Malvern Instruments nanoparticles synthesized by surface- Inc., Westborough, MA, 2Malvern Instruments mediated living radical polymerization. J. Ltd., Malvern, UNITED KINGDOM. Cho, S. Choi, J. Kim*; Bionano, Hanyang University, Ansan, KOREA, REPUBLIC OF. 5:30 275. Polyelectrolyte core-shell particles for environmental applications using a 5:30 281. Theta specimen fabrication: From a microfl uidic fl ow focusing device. C. Menzel, colloid to a free standing component. B. S. G. Yeates; School of Chemistry, University Babcox, G. Lesieutre, M. Frecker, J. Adair; of Manchester, Manchester, UNITED Pennsylvania State University, University KINGDOM. Park, PA.

5:30 276. Encapsulation of 5-fl uorouracil in calcium 5:30 282. Aggregation mechanism of colloidal phosphosilicate nanoparticles via reverse and nano-sized particles in ionic liquids. I. micelle synthetic approach. W. S. Loc1, G. Szilagyi, T. Szabo, A. Desert, G. Trefalt, T. Matters2, P. J. Butler3, C. O. McGovern2, M. Oncsik, M. Borkovec; University of Geneva, Kester4, J. H. Adair5; 1Chemistry/Materials Geneva, SWITZERLAND. Science and Engineering, Pennsylvania State University, State College, PA, 2Biochemistry 5:30 308a. The nucleation phase: Fundamentals of and Molecular Biology, Pennsylvania State crystal formation. I. H. Leubner; Research University, College of Medicine, Bethesda, and Development, Rochester Institute for MD, 3Department of Bioengineering, Fundamental Research, Penfi eld, NY. Pennsylvania State University, State College, 4 PA, Pharmacology, Pennsylvania State 5:30 285. Electrostatic double layer force for University, College of Medicine, Bethesda, dissimilar dielectric spheres. D. Ether1, F. 5 MD, Materials Science and Engineering, S. Rosa1, P. Neto1, H. M. Nussenzveig2; Pennsylvania State University, State College, 1Instituto de Física, Universidade Federal PA. do Rio de Janeiro, Rio de Janeiro, BRAZIL, 2LPO-COPEA, Instituto de Ciências 5:30 277. Grain Boundary Formation and Motion Biomédicas, Universidade Federal do Rio de in Colloidal Crystals. Y. YANG, T. Edwards, Janeiro, Rio de Janeiro, BRAZIL. M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins University, 5:30 286. Selective Growth of TiO2 Shell on baltimore, MD. Dimpled Polymer Particles. S. Kim, G. Yi; Department of Chemical Engineering, 5:30 278. Instabilitydriven macroscale defects Sungkyunkwan University, Suwon, KOREA, in evaporation-driven particle assembly. A. REPUBLIC OF. Weldon, K. Joshi, J. Gilchrist; Chemical Engineering, Lehigh University, Bethlehem, 5:30 288. Packings and assemblies for continuous PA. families of polyhedra. D. Klotsa1, E. R. Chen2, M. Engel1, P. F. Damasceno3, S. 5:30 279. Chiral Colloidal Molecules Assembled C. Glotzer1,3; 1Department of Chemical from Asymmetric Dimers under Electric Engineering, University of Michigan, Ann Fields. f. ma1, s. wang1, H. Zhao2, D. T. Arbor, MI, 2School of Engineering and Applied Wu3, N. Wu1; 1chemical and biological Science, Harvard University, Cambridge, engineerning, colorado school of mines, MA, 3Applied Physics Program, University of golden, CO, 2Department of Mechanical Michigan, Ann Arbor, MI. Engineering, University of Nevada, Las 3 Vegas, Las Vegas, NV, chemistry and 5:30 289. Unifi ed Theoretical Framework for geochemistry, colorado school of mines, Shape Entropy in Colloids. G. van Anders, N. golden, CO. K. Ahmed, D. Klotsa, M. Engel, S. C. Glotzer; Department of Chemical Engineering, University of Michigan, Ann Arbor, MI.

102 103 5:30 290. The Discrete Element Method for Poster Session: Faceted Colloidal Particles in Molecular Fundamentals of Interfaces Dynamics. R. Marson1,2, M. Spellings2,3, J. Anderson1,2,3, S. C. Glotzer1,2,3; 1Department of Monday, June 23, 2014, 5:30 PM - 7:30 PM Materials Science & Engineering, University Houston Bodek Lounge of Michigan, Ann Arbor, MI, 2Biointerface Institute, University of Michigan, Ann Arbor, Organizers: Ilona Kretzschmar, Raymond Tu, Valeria MI, 3Department of Chemical Engineering, Garbin, Lorenzo Botto University of Michigan, Ann Arbor, MI. Presider: L. Botto

5:30 291. Design of Nanoplates for Targeted 5:30 293. Stable Glasses of Vapor-Deposited Assembly. J. Millan1, D. Ortiz1, G. van Organic Molecules. T. Liu, Y. Zhang, K. Anders2, S. C. Glotzer1,2; 1Department of Cheng, E. Salami, P. Walsh, Z. Fakhraai; Materials Science & Engineering, University Chemistry, University of Pennsylvania, of Michigan, Ann Arbor, MI, 2Department of Philadelphia, PA. Chemical Engineering, University of Michigan, Ann Arbor, MI. 5:30 294. Free surface facilitation of the dynamics of entangled polymer fi lms. E. C. Glor, 5:30 292. Packing and assembly behavior of multi- Z. Fakhraai; University of Pennsylvania, dimpled spheroidal particles. N. K. Ahmed1, Philadelphia, PA. G. van Anders1, E. R. Chen2, S. Glotzer1,3; 1Department of Chemical Engineering, 5:30 295. Morphology and ionic conductivity of University of Michigan, Ann Arbor, MI, 2School block copolymer/ionic liquid fi lms aligned of Engineering and Applied Science, Harvard by electric fi eld. S. Sharick, K. I. Winey; University, Cambridge, MA, 3Department of University of Pennsylvania, Philadelphia, PA. Materials Science & Engineering, University of Michigan, Ann Arbor, MI. 5:30 296. Flattening and hole growth dewetting of thin fi lms of TPD. Y. Zhang, T. Liu, E. Glor, C. Li, Z. Fakhraai; chemistry, University of Pennsylvania, Philadelphia, PA.

5:30 297. In-situ atomic force microscopy study of catalytic membrane surfaces. M. J. Young1, P. H. Pfromm1, M. E. Rezac1, B. M. Law2; 1Chemical Engineering, Kansas State University, Manhattan, KS, 2Physics, Kansas State University, Manhattan, KS.

5:30 298. Surfactant self-assembly at liquid/solid interfaces. H. Dominguez1, M. Rivera2, M. Pacheco1; 1Material Science Institute, Universidad Nacional Autonoma de Mexico, Mexico DF, MEXICO, 2Institute of Physics, Universidad Nacional Autonoma de Mexico, Mexico DF, MEXICO.

5:30 299. Structural transitions of pluronics in the protic ionic liquid ethyl ammonium nitrate. R. Chen1, C. R. Lopez-Barron2, N. J. Wagner1; 1Chemical and Biomolecular Engineering, University of Delaware, Newark, DE, 2Global Chemical Research, ExxonMobil Chemical Company, Baytown, TX.

104 105 5:30 300. Role of surface structure on 5:30 307. Rapidly determining surface free energy elastohydrodynamic forces between of cells and particles. X. Zhang1,2, Y. Y. Zuo1; elastomer surfaces. Y. Wang, J. Frechette; 1Department of Mechanical Engineering, Chemical and Biomolecular Engineering, The University of Hawaii at Manoa, Honolulu, HI, Johns Hopkins University, Baltimore, MD. 2School of Material science and Engineering, University of Science and Technology Beijing, 5:30 301. Large area formation of anisotropic silver Beijing, CHINA. nanostructures on colloidal silica monolayers through dynamic interfacial processes. I. 5:30 308. Three sisters model for controlled Spies, M. Hanisch, R. Klupp Taylor; Institute anti-solvent, cooling, and evaporation of Particle Technology, Friedrich-Alexander- crystallizations. I. H. Leubner; Research University of Erlangen-Nuremberg, Erlangen, and Development, Rochester Institute for GERMANY. Fundamental Research, Penfi eld, NY.

5:30 302. Effect of surface roughness on particle 5:30 309. Vapor phase deposition of alkyl- and retention on natural and surrogate produce fl uoro-silanes on nanoporous glass. O. surfaces. V. Lazouskaya1, T. Sun1, G. Wang1, Fidan1, L. Liu2, T. Fronk2, D. W. Britt1; C. Shen2, W. Zheng1, Y. Jin1; 1Department 1Biological Engineering, Utah State University, of Plant and Soil Sciences, University of Logan, UT, 2Mechanical and Aerospace Delaware, Newark, DE, 2Department of Engineering, Utah State University, Logan, Soil and Water Sciences, China Agricultural UT. University, Beijing, CHINA. 5:30 310. Simultaneous nanoscale patterning of 5:30 303. Colloidal particle diffusion and adsorption chemistry and topography on Si(100). M. S. on lipid bilayers. N. Li, T. Baumgart, K. Stebe; Beasley, K. T. Queeney; Chemistry, Smith Chemical and Biomolecular Engineering, College, Northampton, MA. University of Pennsylvania, Philadelphia, PA. 5:30 311. Effects of drainage channels on 5:30 304. Interpretation of the minimum at submerged spheres rolling down an inclined surface tension curves of aqueous plane. C. Argento, C. Dhong, J. Frechette; N-lauroyl sarcosinate solutions. Y. Zhang1, Chemical and Biomolecular Engineering, The B. McDonald2, L. S. Romsted1; 1Dept. of Johns Hopkins University, Baltimore, MD. Chemistry & Chemical Biology, Rutgers, the State University of New Jersey, Piscataway, 5:30 312. Extremely stable PCM nanoemulsions NJ, 2University of Virginia, Charlottesville, VA. fabricated by assembly of amphiphilic block copolymer at oil-water interface. H. Park, S. 5:30 305. Mechanism of electrical passivation of Kim, J. Kim*; Hanyang University, Ansan, Si surfaces with Quinhydrone. N. Kotulak, Gyeonggi-do, KOREA, REPUBLIC OF. M. Chen, N. Schreiber, R. Opila; University of Delaware, Newark, DE. 5:30 313. Structural and Optical Analysis of Single-Component and Binary Nanocrystal 5:30 306. Molecular dynamics simulations Superlattice Films. B. Diroll, M. Cargnello, E. of surfactant self-organization in water: A. Gaulding, Y. Wu; Chemistry, University of implications of thermodynamics and kinetics. Pennsylvania, Philadelphia, PA. s. K. sinha1, N. Ganesan2, S. Patel1; 1chemistry and biochemistry, university of 5:30 314. A tale of soft surface engineering: The delaware, newark, DE, 2Dept. of Electrical aqueous microdroplet. S. Lee; Chemistry, and Computer Engg, university of delaware, Iona College, New Rochelle, NY. Hoboken, NJ. 5:30 315. Thermal Analysis of High Temperature Helium Adsorption on HZSM-5. H. Lee, Sr.; Chemical Engineering, Aspen System Inc., Marlborough, MA.

106 107 5:30 316. Physico-chemical control of foam Materials, Environment, and properties. N. D. Denkov, S. Tcholakova; Department of Chemical Engineering, Sofi a Energy Applications University, Sofi a, BULGARIA. Monday, June 23, 2014, 5:30 PM - 7:30 PM Houston Hall of Flags 5:30 317. Simulated Nematic Textures of Toroidal Ilona Kretzschmar, Raymond Tu, Valeria Droplets. P. W. Ellis, A. Fernandez-Nieves; Organizers: School of Physics, Georgia Institute of Garbin, Lorenzo Botto Technology, Atlanta, GA. Presider: V. Garbin Facile fabrication of hybrid cellulose 5:30 318. Instabilities of electrifi ed toroidal 5:30 319. microstructures using a microfl uidic system. droplets. A. A. Fragkopoulos, E. Pairam, A. Fernandez-Nieves; School of Physics, N. Lee, S. Song, S. Chang; Chemical Georgia Institute of Technology, Atlanta, GA. Engineering and Materials Science, Chung- Ang Univeristy, Seoul, KOREA, REPUBLIC OF.

5:30 320. Degradation of CdS paints from works from the early 20th century. J. Church; Materials Science & Engineering, University of Delaware, Newark, DE.

5:30 321. A Study on CO2-in-Water Foams for Enhanced Oil Recovery Applications. R. Pramudita1, Y. Kim1, W. Bae2, W. Ryoo1; 1Chemical Engineering, Hongik University, Seoul, KOREA, REPUBLIC OF, 2Energy and Mineral Resources Engineering, Sejong University, Seoul, KOREA, REPUBLIC OF.

5:30 322. Continuous Langmuir-Blodgett particle deposition. E. Daniels, A. Weldon, J. Gilchrist; Chemical Engineering, Lehigh University, Bethlehem, PA.

5:30 323. Novel materials: Nanoparticles of the lanthanide series. N. Kim1, M. Goh1, A. Lupascu2, Y. Kim2; 1Chemistry, University of Toronto, Toronto, ON, CANADA, 2Physics, University of Toronto, Toronto, ON, CANADA.

5:30 324. Solubility of Dioctyl Sodium Sulfosuccinate Under Hydrate Forming Conditions. R. Xiong1, X. Li1, A. Couzis1, J. W. Lee1,2; 1Chemical Engineering, The City College of New York, New York, NY, 2Chemical & Biomolecular Engineering, KAIST, Daejeon, KOREA, REPUBLIC OF.

108 109 5:30 325. Microfl uidic directed assembly of 5:30 333. Surface modifi cation of polymers using nano-scale unilamellar vesicles. J. Ko1, high-pressure carbon dioxide and block M. Muluneh2, A. Tsourkas2, Z. Cheng2, D. copolymer. C. Park, W. S. Ryoo; Chemical Issadore1; 1Bioengineering, University of Engineering, Hongik University, Seoul, Pennsylvania, Philadelphia, PA, 2University of KOREA, REPUBLIC OF. Pennsylvania, Philadelphia, PA. 5:30 334. Fabrication of monodispersed 5:30 326. Fabrication of Asymmetric Structures by polyurethane elastomer microparticles with Directional Photo-Polymerization. H. Lee1, graphene oxide/polyelectrolyte hybrid shell S. Kim2, H. Yoon1; 1Seoul National University layers for detection of structural colloidal of Science & Technology, Seoul, KOREA, deformation. S. Kim, H. Park, J. Kim*; Applied REPUBLIC OF, 2Seoul National University, chemistry, Hanyang University, Ansan, Seoul, KOREA, REPUBLIC OF. Gyeonggi-do, KOREA, REPUBLIC OF.

5:30 327. Obtaining material responses accurately 5:30 335. Fabrication of nanofl uids including and effi ciently from time-resolved scattering nanoparticles with repulsive zwitterionic experiments. S. Rogers, M. Calabrese, N. J. polymer layers for remarkably enhancing oil Wagner; Chemical Biomolecular Engineering, recovery. S. Choi, J. Cho, J. Kim*; Hanyang University of Delaware, Newark, DE. University, Ansan, Gyeonggi-do, KOREA, REPUBLIC OF. 5:30 328. Investigation of interfacial properties and phase behavior of propoxylated surfactants 5:30 336. The role of dispersants’ dynamic for enhanced oil recovery application. Y. Kim, interfacial tension in effective crude oil W. S. Ryoo; Chemical Engineering, Hongik spill dispersion. D. Riehm, A. McCormick; University, Seoul, KOREA, REPUBLIC OF. Chemical Engineering and Materials Science, University of Minnesota, Minneapolis, MN. 5:30 329. Electronic and chemical properties of (Cu,Ag)(In,Ga)Se2 semiconductors. K. 5:30 337. Preparation of custom-designed J. Jones; Material Science, University of polyelectrolyte complexes through Delaware, Newark, DE. photodirected assembly. U. K. de Silva, N. H. Okoye, J. A. Wengatz, Y. Lapitsky; Chemical 5:30 330. Three-dimensional chiral plasmonic and Environmental Engineering, University of nanostructures with high optical activity. B. Toledo, Toledo, OH. Yeom1, H. Zhang1, H. Zhang2, A. Govorov2, N. Kotov1; 1Chemical engineering, University 5:30 338. Microfl uidics based conducting polymer of Michigan, Ann Arbor, MI, 2Department of polyaniline particles for sensing and Physics, Ohio University, Athens, OH. controlled release. S. N. Beesabathuni, J. Kim, J. Chung, A. Shen; Mechanical 5:30 331. Ionically Crosslinked Polyelectrolytes as Engineering, University of Washington, Stimulus-Responsive Underwater Adhesives. Seattle, WA. P. G. Lawrence, Y. Huang, Y. Lapitsky; Chemical Engineering, University of Toledo, Toledo, OH.

5:30 332. Modifi ed Mesoporous Silica Membranes on Polymeric Hollow Fibers for Separation Applications. H. Kim1, K. Jang2, W. J. Koros3, S. Nair3, C. W. Jones3; 1Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Korea Research Institute of Chemical Technology, Daejeon, KOREA, REPUBLIC OF, 3Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA.

110 111 Plenary Lecture 2 Active Colloids 4: Biological Swimmers

Tuesday, June 24, 2014, 8:20 AM - 9:20 AM Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Irvine Auditorium DRL A6 Organizers: John Crocker, Kathleen Stebe, Arjun Yodh Zvonimir Dogic, Christina Marchetti Kathleen Stebe Organizers: Presider: Presider: S. J. DeCamp

8:20 339. Simulations of DNA-mediated Do extracellular polysaccharides play , A. Reinhardt; 9:50 340. self assembly. D. Frenkel distinct mechanical roles that impact the Chemistry, U Cambridge, Cambridge, biology of single bacteria and of biofi lms?. UNITED KINGDOM. V. Gordon, B. Cooley, K. Kovach, C. Rodesney; The University of Texas at Austin, Austin, TX. Abstract: 10:10 341. Swimming dynamics of Escherichia coli The self assembly of nano-structured materials in dilute polymer suspensions. A. E. Koser, consisting of many distinct building blocks is one of P. E. Arratia; Mechanical Engineering, the holy grails of nano-science. DNA-coated colloids University of Pennsylvania, Philadelphia, PA. seemed to be good candidates to achieve this goal, yet the colloidal structures that have been shown to self- 10:30 342. Diffusiophoretically propelled colloidal assemble are relatively simple. In contrast, approaches swimmers in the vicinity of a planar wall based on DNA origami have scored some amazing boundary. N. Sharifi Mood1, A. Mozaffari2, J. successes. In my talk I will describe simulations that Koplik3, C. Maldarelli2; 1Chemical and Biomo- allow us to understand why, in the case of DNA-coated lecular Engineering, University of Pennsylva- colloids, `the good news is the bad news’ - but, most nia, Philadelphia, PA, 2Chemical Engineering, importantly, why the bad news does not extend to DNA Benjamin Levich Institute ,City College of `bricks’ and related building blocks. New York, New York, NY, 3Physics, Benjamin Levich Institute ,City College of New York, New York, NY.

10:50 343. Bacterial locomotion near oil-water interfaces. M. Molaei1, M. Jalali1, L. Vaccari2, K. Stebe2, J. Sheng1; 1Mechanical Engineeing, Texas Tech University, Lubbock, TX, 2Chemical and Biomolecular Engineeing, University of Pennsylvania, Philadelphia, PA.

11:10 344. Rheological properties of Fire ant packings. D. L. Hu1,2, M. J. Tennenbaum3, Z. Liu1, A. Fernandez-Nieves3; 1School of Mechanical Engineering, Georgia Institute of Technology, Atlanta, GA, 2School of Biology, Georgia Institute of Technology, Atlanta, GA, 3Schools of Physics, Georgia Institute of Technology, Atlanta, GA.

11:30 345. Bacterial adhesion and biofi lm formation over substrates with micro-scale oily textures. M. Jalali Mousavi; Mechanical Engineering, Texas Tech University, Woodbury, MN.

112 113 11:50 346. Is it possible the hydrodynamic Biocolloids 4: Self-Assembly synchronization of colloidal rotors describing rigid trajectories? -an experimental proof. A. Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Maestro1, N. Bruot1, J. Kotar1, N. Uchida2, R. Houston Ben Franklin Golestanian3, P. Cicuta1; 1BSS, Department of Dennis Discher, Michael Rubinstein Physics, University of Cambridge, Cambridge, Organizers: R. K. Prud’homme UNITED KINGDOM, 2Department of Physics, Presider: Tohoku University, Sendai, JAPAN, 3Rudolf Atomistic simulations of ionic and Peierls Centre for Theoretical Physics, 9:50 347. nonionic spherical and fl ower-like micelles. University of Oxford, Cambridge, UNITED , S. Wang, R. Larson; University of KINGDOM. F. Yuan MIchigan, Ann Arbor, MI.

10:10 348. Probing self-assembly rules in molluscan photonic structures with patchy colloid theory. T. Dodson, J. Cai, J. Townsend, A. Sweeney; Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

10:30 349. Self-assembly of bacterial constructs with biofi lm-like morphology and mechanics. E. J. Stewart1, M. Ganesan1, J. G. Younger2, M. J. Solomon1; 1Chemical Engineering, University of Michigan, Ann Arbor, MI, 2Emergency Medicine, University of Michigan, Ann Arbor, MI.

10:50 350. Nanoparticles of conjugated polymers prepared from phase-separated fi lms of phospholipids and polymers for biological applications. J. PARK, J. Choi, H. Jo; SCHOOL OF CHEMICAL ENGINEERING AND MATERIALS SCIENCE, CHUNG-ANG UNIVERSITY, Seoul, KOREA, REPUBLIC OF.

11:10 351. Insights into membrane thickness fl uctuations. P. Butler1, R. Ashkar2,1, A. Woodka3, M. Nagao4,1; 1National Institute of Standards and Technology, Gaithersburg, MD, 2Universtigy of Maryland, College Park, MD, 3United States Military Academy, West Point, NY, 4University of Indiana, Bloomington, IN.

11:30 352. Adding the 3rd dimension: Challenges in additive manufacturing of composite bone scaffolds for tissue regeneration. E. A. Taylor1, Z. Bushman1, G. Lewis2, H. Donahue2, J. H. Adair1; 1Materials Science and Engineering, The Pennsylvania State University, University Park, PA, 2Orthopaedics and Rehabilitation, Penn State College of Medicine, Hershey, PA.

114 115 11:50 353. Factors controlling the formation and Biointerfaces 4: Mechanics I coagulation of chitosan/tripolyphosphate micro- and nanogels. Y. Huang, Y. Lapitsky; Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Chemical and Environmental Engineering, Houston Class of ‘49 University of Toledo, Toledo, OH. Organizers:Ravi Radakrishnan, Tobias Baumgart Presider: H. Yu

9:50 354. Fundamentals of nanotoxicity: Nanoparticles can cause genotoxic damage by promoting membrane fusion. C. M. Beddoes1, C. P. Case2, W. H. Briscoe3; 1Bristol Centre for Functional Nanomaterials, University of Bristol, Bristol, UNITED KINGDOM, 2Bristol Implant Research Centre, Southmead Hospital, Bristol, UNITED KINGDOM, 3School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM.

10:10 355. Electrostatic effects in the mechanics of cell membranes. P. Purohit; Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

10:30 356. Defi ning the free energy landscape of curvature inducing proteins on membrane bilayers. R. W. Tourdot1, N. Ramakrishnan2, R. Radhakrishnan1; 1Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Department of Bioengineering, University of Pennsylvania, Philadelphia, PA.

10:50 357. Self-assembly of colloids on fl uid membranes. A. Saric1, A. Cacciuto2; 1Department of Chemistry, University of Cambridge, Cambridge, UNITED KINGDOM, 2Department of Chemistry, Columbia University, New York, NY.

11:10 358. Modeling protein-induced membrane remodeling from the near-atomic to the mesoscale. R. Bradley1, N. Ramakrishnan2, R. Tourdot1, R. Radhakrishnan2; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

11:30 359. Keynote Lecture: Structure and translocation in Nuclear Pore Complexes. I. Szleifer; Biomedical Engineering, Northwestern University, Evanston, IL.

116 117 Colloidal and Surface Forces 4: Bubbles Directed Assembly 4: Evaporative and and Dynamics Convective Assembly Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Tuesday, June 24, 2014, 9:50 AM - 12:10 PM College Hall 200 Meyerson B1

Organizers: Eric Furst, Ray Dagastine Organizers: Cherie Kagan, Vinothan Manoharan Presider: A. Zaccone Presider: T. Paik

9:50 360. Applications of the Stokes-Reynolds- 9:50 366. Vibration-assisted convective deposition. Young-Laplace Model. C. Wu; Department T. Muangnapoh, A. Weldon, M. Joy, J. of Mathematics and Statistics, University of Gilchrist; Chemical Engineering, Lehigh Melbourne, Melbourne, AUSTRALIA. University, Bethlehem, PA.

10:10 361. . Dynamics of a liquid of yolk-shell 10:10 367. Self-assembly in an evaporating particles. L. E. Sanchez Diaz, Sr.1, W. nanofl uid droplet: Rapid transformation of Chen1, M. Medina-Noyola2; 1Biology and Soft nanorods into 3D fi bre network structures. H. matter, Oak Ridge National Lab, Oak Ridge, Wu1, W. H. Briscoe2; 1School of Chemistry TN, 2Instituto de Fisica “Manuel Sandoval and Chemical Engineering, Shanghai Vallarta’’, Universidad Autonoma de San Luis Jiaotong University, Shanghai, CHINA, Potosi, San Luis Potosi, MEXICO. 2School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM. 10:30 362. Keynote Lecture: Role of colloidal forces in unconventional oil processing. Z. 10:30 368. Shape control of supraparticles: Xu, X. Zhang, P. Tchoukov, L. Wang, Q. Liu, Anisometric particles from colloidal J. Masliyah; University of Alberta, Edmonton, building blocks by simple evaporation. M. AB, CANADA. Gradzielski1, M. Sperling1, O. Velev2; 1Institut of Chemistry, Technische Universitaet Berlin, 11:10 363. Load-induced hydrodynamic lubrication Berlin, GERMANY, 2Department of Chemical of porous polymer fi lms. N. Pesika, T. Khosla; and Biomolecular Engineering, North Carolina Chemical and Biomolecular Eng, Tulane State University (NCSU), Raleigh, NC. University, New Orleans, LA. 10:50 369. Solution processing of ordered thin 11:30 364. Polyelectrolytes and their infl uence fi lm nanowire composites by magnetic fi eld on depletion and structural forces between alignment. J. P. Singer, C. I. Pelligra, S. colliding bubbles. C. Browne1, R. Tabor2, Huang, C. O. Osuji; Department of Chemical F. Grieser1, R. Dagastine1; 1University of and Environmental Engineering, Yale Melbourne, Parkville, Victoria, AUSTRALIA, University, New Haven, CT. 2Monash University, Clayton, Victoria, AUSTRALIA. 11:10 370. pH-sensitive hierarchically structured honeycomb fi lms. P. MARCASUZAA1, M. 11:50 365. Colloids with Temperature Tunable SAVE1, P. GERARD2, L. BILLON1; 1Dpt Interactions. A. M. Alsayed, Y. Zhou, P. Chemistry, IPREM UMR 5254 CNRS, PAU, Herve, L. Hough; COMPASS, Solvay, Bristol, FRANCE, 2ARKEMA, LACQ, FRANCE. PA. 11:30 371. Formation of breath fi gure arrays in methanol vapor assisted by surface active agents. A. Zhang, L. Li; College of materials, Xiamen University, Xiamen, CHINA.

118 119 11:50 372. Evaporation-meditated nanostructure Emulsions, Bubbles and Foams formation via particle self-assembly in inkjet- 4: Biomimetic and Biocompatible printed drops. X. Yang1, C. Li2, Y. Sun1; 1Mechanical Engineering and Mechanics, Emulsions and Foams 2 Drexel University, Philadelphia, PA, Materials Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Science and Engineering, Drexel University, DRL A1 Philadelphia, PA. Organizers: Doug Durian, Jasna Brujic Presider: J. Fattaccioli

9:50 373. Hemofoam: A polymer-based foam for treating no.n-compressible hemorrhage. J. C. White, M. B. Dowling, S. R. Raghavan; Chemical and Nuclear Engineering, University of Maryland College Park, College Park, MD.

10:10 374. Peritoneal Microbubble Oxygenation Prolongs Survival in a Lung Injury Model. M. A. Borden1, J. A. Feshitan1, N. Legband2, B. Terry2; 1Mechanical Engineering, University of Colorado, Boulder, CO, 2Mechanical and Materials Engineering, University of Nebraska, Lincoln, NE.

10:30 375. Generating emulsion-templated particles for lung cancer drug delivery. B. R. Benson1, N. M. Pinkerton1, B. K. Wilson1, D. Gao2, D. Adler2, H. A. Stone3, P. J. Sinko2, R. K. Prud’homme1; 1Chemical and Biological Engineering, Princeton University, Princeton, NJ, 2Department of Pharmacuetics, Rutgers University, Piscataway, NJ, 3Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ.

10:50 376. Keynote Lecture: Emulsions as biomimetic systems; the example of the COPI machinery on lipid droplets: interface remodeling, budding, energy, in vitro and in vivo applications. F. PINCET1,2, A. Thiam1,2, J. Rothman2, B. Antonny3; 1Laboratoire de Physique Statistique, Ecole Normale Superieure, Paris, FRANCE, 2Department of Cell Biology, Yale University, New Haven, CT, 3Institut de Pharmacologie Moléculaire et Cellulaire, Valbonne, FRANCE.

120 121 11:30 377. Towards the compartmentalization Environmental Science 4 of aqueous multiphase system for the construction of genetically encoded cellular Tuesday, June 24, 2014, 9:50 AM - 12:10 PM mimics. P. Torre1,2, C. Keating1, S. Mansy3; Houston Golkin 1Chemistry, Penn State University, State Daniel Strongin, Howard Fairbrother College, PA, 2University of Trento, Trento, Organizers: J. Fortner ITALY, 3Chemistry, University of Trento, Presider: Trento, ITALY. 9:50 379. Probing the interactions of graphene oxide nanomaterials with model cell Ordering and clustering of particles at 11:50 378. membranes using QCM-D. , K. Chen; a lipid-coated droplet interface. , P. X. Liu J. Forth Department of Geography and Environmental Clegg; School of Physics and Astronomy, Engineering, Johns Hopkins University, University of Edinburgh, Edinburgh, UNITED Baltimore, MD. KINGDOM. 10:10 380. The Interaction of Carbon-Based Nanomaterials with (model) Cell Membranes: Insights from Chemical Force Microscopy. S. Romero-Vargas Castrillón, F. Perreault, M. Elimelech; Chemical and Environmental Engineering, Yale University, New Haven, CT.

10:30 381. Surface functionalization of thin-fi lm composite polyamide membranes with antimicrobial graphene oxide nanosheets. F. Perreault, M. E. Tousley, A. F. de Faria, M. Elimelech; Chemical and Environmental Engineering, Yale University, New Haven, CT.

10:50 382. Long term fate of carbon nanotube- polymer nanocomposites in the presence of microorganisms. D. G. Goodwin, Jr.1, I. B. Sosa2, T. Devahif3, J. B. Payne4, R. S. Go4, D. H. Fairbrother1, E. J. Bouwer4; 1Chemistry, The Johns Hopkins University, Baltimore, MD, 2Chemistry, Instituto Venezolano de Investigaciones Cientifi cas (IVIC), Altos de Pipe, VENEZUELA, BOLIVARIAN REPUBLIC OF, 3Chemistry, University of Namur, Namur, BELGIUM, 4Geography and Environmental Engineering, The Johns Hopkins University, Baltimore, MD.

11:10 383. Interactions of nanotitania at bacterial surfaces under environmental conditions. K. A. Gray1, T. Tong1, C. Binh2, J. Kelly2, J. Gaillard1; 1Civil & Environmental Engineering, Northwestern University, Evanston, IL, 2Biology, Loyola University Chicago, Chicago, IL.

11:30 384. Effects of carbon nanomaterials on lung surfactant. R. P. Valle, T. Wu, Y. Y. Zuo; Mechanical Engineering, University of Hawaii, Honolulu, HI.

122 123 11:50 385. Photodegradation of CNT- General Papers 4: Particles and nanocomposites under simulated Aggregation environmental conditions. R. Lankone1, J. Wang2, J. Ranville2, H. Fairbrother1; Tuesday, June 24, 2014, 9:50 AM - 12:10 PM 1Chemistry, The Johns Hopkins University, Towne Heilmeier Baltimore, MD, 2Chemistry and Geochemistry, Colorado School of Mines, Golden, CO. Organizers: Joelle Frechette, Mike Bevan Presider: J. Conrad

9:50 386. paper withdrawn.

10:10 387. A new technique for sizing particles using frustrated evanescent fi elds. C. G. Bolton, R. R. Dagastine; Department of Chemical & Biomolecular Engineering, University of Melbourne, Melbourne, AUSTRALIA.

10:30 388. Short-Range Ordering and Non-Ideal Diffusion Effects in Perikinetic Aggregation in Dispersions of Spherical Particles. A. V. Kelkar, E. I. Franses, D. S. Corti; School of Chemical Engineering, Purdue University, West Lafayette, IN.

10:50 389. Dispersion stability in high electrolyte systems. A. Vilinska, S. Ponnurangam, I. Chernyshova, J. Martinez, P. Somasundaran; Earth and Environmental Engineering, Columbia University, New York, NY.

11:10 390. Synthesis, Characterization, and Assembly of Lamellar-Packed Cobalt Oxide Nanorods. V. Doan-Nguyen1, T. Paik2, R. Agarwal3, C. B. Murray3; 1University of Pennsylvania, Philadelphia, PA, 2Chemistry, University of Pennsylvania, Philadelphia, PA, 3Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA.

11:30 391. A Predictive Model for the Thermal Conductivity of Clustered Nanocolloids. S. Lotfi zadeh, T. Matsoukas; Chemical Engineering, Pennsylvania State University, University park, PA.

11:50 392. Visible Mie scattering from hollow silica particles with particulate shells. L. A. Fielding, O. O. Mykhaylyk, P. W. Fowler, S. P. Armes; Department of Chemistry, The University of Sheffi eld, Sheffi eld, UNITED KINGDOM.

124 125 Glasses/Jamming 4: Foams, Emulsions, Microfl uidics: Sorting, Colloids, etc. Self-Assembly and Transport Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Skirkanich Berger DRL A5

Organizers: Rob Riggleman, Andrea Liu, Eric Weeks Organizers: Paulo Arratia, Kevin Turner Presider: G. Szamel Presider: K. Turner

9:50 393. Keynote Lecture: Contact Changes 9:50 399. Keynote Lecture: Direct Separation and Rearrangements near the Jamming and Analysis of Cells Mediated by Point. M. van Hecke; Leiden University, Transient Molecular Interactions in Leiden, NETHERLANDS. Microfl uidic Devices. R. Karnik; MIT, Cambridge, MA. 10:30 394. Diagnosing the hyperuniformity of two- dimensional jammed packings of spheres. R. 10:30 400. Tuning the velocity profi le in Dreyfus1, Y. Xu1, T. Still2, L. Hough1, A. Yodh2, hydrodynamically confi ned microfl ows using S. Torquato3; 1CNRS/Solvay/UPenn, Bristol, non-uniform electric fi elds. C. Park, K. T. PA, 2University of Pennsylvania, Philadelphia, Turner; Mechanical Engineering and Applied PA, 3University of Princeton, Princeton, NJ. Mechanics, University of Pennsylvania, Philadelphia, PA. 10:50 395. Stress correlations and elastic response of particle packings near jamming. K. Karimi, 10:50 401. Microfl uidic self-assembly of colloidal C. E. Maloney; Civil and Environmental molecules: from drug delivery to nanomotors. Engineering, Carnegie Mellon University, Z. Nie, J. He, Y. Liu, L. Wang, J. Fourkas; Pittsburgh, PA. Chemistry and Biochemistry, University of Maryland, College Park, MD. 11:10 396. Phonons in quasi-two-dimensional soft colloidal glasses and crystals. T. Still1, K. 11:10 402. Ratcheted electrophoresis for rapid Chen2, C. P. Goodrich1, S. Schoenholz1, A. particle transport. A. M. Drews, H. Lee, K. J. C. Maggs3, A. J. Liu1, A. G. Yodh1; 1University Bishop; Chemical Engineering, Pennsylvania of Pennsylvania, Philadelphia, PA, 2Chinese State University, State College, PA. Academy of Sciences, Beijing, CHINA, 3ESPCI, Paris, FRANCE. 11:30 403. Self-assembly driven by hydrodynamic dipolar interactions. b. shen, Jr, j. Ricouvier, Jr, 11:30 397. Glasslike Behavior of Concentrated m. reyssat, p. J. tabeling, Sr.; ESPCI, paris, Protein Solutions. P. Sarangapani1, S. FRANCE. Hudson2, D. Audus2, R. Jones2, J. Douglas2, J. A. Pathak1; 1MedImmune, Gaithersburg, 11:50 404. Hybrid soft-lithography/laser machined MD, 2Materials Science and Engineering, microchips for the parallel generation of National Institute of Standards and droplets. M. M. Woldemariam, D. Issadore; Technology, Gaithersburg, MD. University of Pennsylvania, Philadelphia, PA.

11:50 398. Simulations of Soft Glassy Matter with ripening. H. Hwang, R. A. Riggleman, J. C. Crocker; Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA.

126 127 Molecular Self-Assembly 4 Particles in Interfaces, Fields Tuesday, June 24, 2014, 9:50 AM - 12:10 PM and Liquid Crystals 4 Cohen Terrace Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Irvine Amado Organizers: Dan Hammer, Darrin Pochan Presider: D. Hammer Organizers: Tony Dinsmore, Chris Santangelo, Mohamed Gharbi 9:50 405. Effects of nucleic acid additions on Presider: M. Gharbi plasmonic signatures of gold nanoparticles. 1 1 2 R. Sullivan, III , M. N. Tapp , P. Dennis , Colloidal transport and periodic stick-slip 2 1,3,4 1 9:50 411. R. Naik , V. Milam ; School of Materials motion in cholesteric fi nger textures. K. Chen, Science and Engineering, Georgia Institute L. Metcalf, D. Reich, R. Leheny; Department of Technology, Atlanta, GA, 2Materials & of Physics and Astronomy, Johns Hopkins Manufacturing Directorate, Air Force Research University, Baltimore, MD. Laboratory, Wright Patterson AFB, OH, 3Wallace C. Coulter Department of Biomedical 10:10 412. Colloidal assembly in liquid crystals Engineering, Georgia Institute of Technology, tuned by soft porous membranes. 1, 4 F. Serra Atlanta, GA, Petit Institute for Bioengineering Y. Xia2, Y. Luo3, M. A. Gharbi1, R. Kamien1, and Bioscience, Georgia Institute of S. Yang2, K. J. Stebe3; 1School of Physics Technology, Atlanta, GA. and Astronomy, University of Pennsylvania, Philadelphia, PA, 2LRSM, University of 10:10 406. A coarse-grained model for DNA- Pennsylvania, Philadelphia, PA, 3School of mediated particle assembly. Y. Ding, J. Mittal; engineering and applied science, University of chemical engineering, Lehigh University, Pennsylvania, Philadelphia, PA. Bethlehem, PA. 10:30 413. Control of bulk defects of nematic liquid 10:30 407. Keynote Lecture: Self-Assembly crystals in micro-post arrays. Y. Xia, M. Nanoparticle Structures in Polymer Gharbi, R. Kamien, K. Stebe, S. Yang; Upenn, Nanocomposites. S. Kumar; Columbia philadelphia, PA. University, New York, NY. 10:50 414. Liquid crystal-enabled colloidal 11:10 408. Adsorption of surfactants onto single- electrokinetics. O. D. Lavrentovich; Liquid walled carbon nanotubes. E. Kastrisianaki- Crystal Institute, Kent State University, Kent, Guyton1, J. van Duijneveldt1, T. Cosgrove1, OH. L. Chen2; 1Chemistry, University of Bristol, Bristol, UNITED KINGDOM, 2Chilworth 11:10 415. Keynote Lecture: Self-assembly of Technical Centre, Merck Chemicals Ltd., nanoparticles via liquid crystal phase Southampton, UNITED KINGDOM. 1 transitions. L. Reven1,2, J. Milette , E. Soulé3, S. Relaix4, S. Manet4, R. Lennox1, A. 11:30 409. Molecular layers on Ag nanoparticles Rey5, M. Sutton4, P. Oswald6; 1Department characterized by second harmonic light of Chemistry, McGill University, Montreal, scattering. G. Gonella1, B. Xu1, B. G. DeLacy2, QC, CANADA, 2Centre for Self-Assembled H. Dai1; 1Temple University, Philadelphia, PA, Chemical Structures, Montreal, QC, CANADA, 2Research & Technology Directorate, U.S. 3INTEMA, Institute of Materials Science, Army Edgewood Chemical Biological Center, Universidad de Mar del Plata, Mar del Plata, Aberdeen Proving Ground, MD. ARGENTINA, 4Department of Physics, McGill University, Montreal, QC, CANADA, 11:50 410. Nanostructures in Catalysis and 5Department of Chemical Engineering, Electrochemical sensing: An overview. S. McGill University, Montreal, QC, CANADA, K. Mehta; Chemistry, Panjab University, 6Laboratoire de Physique, École Normale Chandigarh, INDIA. Supérieure de Lyon, Lyon, FRANCE.

128 129 11:50 416. Flower textures of smectic focal conic Patchy and Janus Particles 4: Synthesis domains: Friedel’s laws in reverse. D. A. and Assembly of Patchy Particles Beller, M. A. Gharbi, A. Honglawan, S. Yang, K. J. Stebe, R. D. Kamien; University of Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Pennsylvania, Philadelphia, PA. Irvine Café ‘58

Organizers: Daeyeon Lee, Alberto Striolo Presider: D. Lee

9:50 417. Gelation of patchy rods. N. Kazem, C. E. Maloney; Civil and Environmental Engineering, Carnegie Mellon University, Pittsburgh, PA.

10:10 418. Crystal growth on colloidal particles: General rules for patchy particle synthesis. H. Bao1, F. Sadafi 1, T. Meincke1, T. Bihr2, A. Smith2, R. Klupp Taylor1; 1Institute of Particle Technology, Friedrich-Alexander-University of Erlangen-Nuremberg, Erlangen, GERMANY, 2Institute of Theoretical Physics, Friedrich- Alexander-University of Erlangen-Nuremberg, Erlangen, GERMANY.

10:30 419. Keynote Lecture: Patchy Colloids. D. J. Pine; Chemical & Biomolecular Engineering, New York University, Brooklyn, NY.

11:10 420. Preparation, functionalization and self- assembly of Janus dumbbell nanoparticles. F. Guignard, M. Lattuada; Adorlphe Merkele Institute, University of Fribourg, Marly, SWITZERLAND.

11:30 421. Synthesis and self-assembly of patchy colloids: Experiments and Simulation. E. Mani, S. Manigandan; Chemical Engineering, Indian Institute of Technology Madras, Chennai, INDIA.

130 131 Rheology and Dynamics 4 Wetting and Adhesion 4: Interfacial Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Tension, Adhesion and Friction DRL A7 Tuesday, June 24, 2014, 9:50 AM - 12:10 PM Levine Wu and Chen Organizers: Chinedum Osuji, Kelly Schultz Presider: E. Del Gado Organizers: Shu Yang, Eric Dufresne Presider: R. Style 9:50 422. Keynote Lecture: Interfacial rheology : mission impossible?. J. Vermant; Chemical 9:50 428. Measuring solid surface tension using a Engineering, KU Leuven, University of suspended thin fi lm: theory and experiment. Leuven, B-3001, BELGIUM. A. Jagota1, C. Hui2, N. Nadermann1, D. Paretkar1, X. Xu2; 1Lehigh University, 10:30 423. Colloidal monolayers under steady Bethlehem, PA, 2Cornell University, Ithaca, NY. shear at the liquid-liquid interface. I. 1 2 2 1 Buttinoni , Z. A. Zell , T. M. Squires , L. Isa ; 10:10 429. Competition of interfacial and 1Department of Materials, ETH Zürich, Zürich, gravitational energies in determining the SWITZERLAND, 2Department of Chemical confi guration of a compound sessile drop. Engineering, UCSB, Santa Barbara, CA. Y. Zhang1, S. L. Anna2, D. Chatain3, S. Garoff1; 1Physics, Carnegie Mellon University, 10:50 424. Impact of dispersed nanoparticles on Pittsburgh, PA, 2Chemical Engineering and the mechanics and phase transitions of block Mechanical Engineering, Carnegie Mellon copolymer soft solids. M. Dao, M. Domach, University, Pittsburgh, PA, 3CNRS, CINaM L. Walker; Chemical Engineering, Carnegie UMR 7325, Aix Marseille Universite, Marseille, Mellon University, Pittsburgh, PA. FRANCE.

11:10 425. Effect of smooth and rough boundaries 10:30 430. Contact mechanics on compliant, on suspension microstructure. T. Perera, adhesive substrates. K. E. Jensen1, R. J. Gilchrist; Chemical Engineering, Lehigh W. Style1, R. Sarfati2, E. R. Dufresne1; University, Bethlehem, PA. 1Mechanical Engineering and Materials Science, Yale University, New Haven, CT, 11:30 426. Dynamics of a thermo-responsive 2Applied Physics, Yale University, New Haven, microgel colloid near to the glass transition. X. CT. Di1,2, X. Peng2, G. B. McKenna2; 1Chemical & Environmental Engineering, Yale University, 10:50 431. To catch a fl y: Viscosity and elasticity- New Haven, CT, 2Chemical Engineering, based prey capture by frog tongue projection. Texas Tech University, Lubbock, TX. A. Noel, H. Choe, J. Ha, A. Fernandez- Nieves, J. Streator, D. L. Hu; Mechanical 11:50 427. Dynamics of Cubic Colloids. J. R. Engineering, Georgia Institute of Technology, Royer1, G. L. Burton1, D. L. Blair2, S. D. Atlanta, GA. Hudson1; 1Materials Science and Engineering Division, National Institute of Standards and 11:10 432. Adhesion, friction and bonding in 2 Technology, Gaithersburg, MD, Department fi ber-fi ber joints. A. Swerin, B. D. Brandner; of Physics, Institute for Soft Matter Synthesis Chemistry, Materials and Surfaces, SP and Metrology, Georgetown University, Technical Research Institute of Sweden, Washington, DC. Stockholm, SWEDEN.

11:30 433. Measuring adhesion forces in powder collectives by inertial detachment. S. Wanka1, M. Kappl1, M. Wolkenhauer2, H. Butt1; 1Physics at Interfaces, Max Planck Institute for Polymer Research, Mainz, GERMANY, 2Boehringer Ingelheim Pharma GmbH & Co. KG, Ingelheim, GERMANY.

132 133 11:50 434. Experimental measurement of forces Active Colloids 5: New Mechanisms and energies associated with capillary rise in a vertical tube. C. W. Extrand, S. I. Moon; Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Entegris, Chaska, MN. DRL A6 Organizers: Zvonimir Dogic, Christina Marchetti Presider: G. Redner

1:30 435. Tuning the Swimming Mechanisms of Colloidal Particles: Bubble Propulsion vs. Self- diffusiophoresis. S. Wang, N. Wu; Chemical and biological engineering, Colorado School of Mines, Golden, CO.

1:50 436. Self-propelled movement of particle asymmetrically functionalized with peroxidase. S. Park1, W. Jang1, A. Kumar1, D. Lee1, D. A. Hammer1,2; 1chemical & biomolecular engineering, University of Pennsylvania, philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

2:10 437. Colloidal dancers: Designing networks of DNA-functionalized colloids for non- random walks. E. W. Gehrels, W. B. Rogers, Z. Zeravcic, V. N. Manoharan; Harvard University, Cambrige, MA.

2:30 438. Transport applications of catalytic Janus sphere swimming devices: Developing an autonomous guidance strategy. A. I. Campbell, S. J. Ebbens; Chemical and Biological Engineering, The University of Sheffi eld, Sheffi eld, UNITED KINGDOM.

2:50 439. Light-activated fl uidic valve by triggering the ionic gelation of a biopolymer. H. Oh, A. Lu, V. Javvaji, R. Hashemipour, S. R. Raghavan; Chemical and Biomolecular Engineering, University of maryland, College Park, MD.

134 135 Biocolloids 5: Contrast Agents Biointerfaces 5: Mechanics II Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Houston Ben Franklin Houston Class of ‘49

Organizers: Dennis Discher, Michael Rubinstein Organizers: Ravi Radakrishnan, Tobias Baumgart Presider: I. Szleifer Presider: P. Purohit

1:30 440. Harvesting the collective properties of 1:30 444. Substrate stiffness enhances stem cell nanoparticle ensembles for cancer imaging differentiation through nuclear remodeling. J. and treatment. Z. Nie1, J. Lin1, P. Huang2, Swift, I. L. Ivanovska, A. Buxboim, T. Harada, S. Chen2; 1Chemistry and Biochemistry, D. P. Dingal, K. R. Spinler, J. Shin, M. Tewari, University of Maryland, College Park, MD, D. E. Discher; Bioengineering, University of 2NIH, NIBIB, Bethesda, MD. Pennsylvania, Philadelphia, PA.

1:50 441. Incorporation of Periodically Sequenced 1:50 445. Mechanics of biofi lms at oil-water “Surftides” into Lipid-Based Microbubbles. J. interfaces. L. Vaccari1, D. B. Allan2, J. Sheng3, V. Badami, R. Tu; Chemical Engineering, The M. D. Goulian1, R. L. Leheny2, K. J. Stebe1; City College of New York, New York, NY. 1University of Pennsylvania, Philadelphia, PA, 2Johns Hopkins University, Baltimore, MD, 2:10 442. Dextran coated bismuth-iron oxide 3Texas Tech University, Lubbock, TX. nanoparticle as a novel contrast agent for both computed tomography and magnetic 2:10 446. ‘Scar in a dish’: A platform for screening resonance imaging. P. C. Naha1, A. A. stem cell-derived mechanical response. P. Zaki2, E. Hecht1, M. Chorny3, P. Chhour2, P. Dingal, M. Raab, D. E. Discher; Chemical W. Witschey1, H. I. Litt1, A. Tsourkas2, and Biomolecular Engineering, University of D. P. Cormode1; 1Radiology, University Pennsylvania, Philadelphia, PA. of Pennsylvania, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, 2:30 447. Membrane curvature instability Philadelphia, PA, 3The Children’s Hospital of mediated by protein density, tension, and lipid Philadelphia, Philadelphia, PA. spontaneous curvature. Z. Shi, T. Baumgart; Chemistry, University of Pennsylvania, 2:30 443. Particles for photoacoustic imaging-- a Philadelphia, PA. new bioimaging modality. R. K. Prud’homme, V. Pansare; Chem and Biol Engr, Princeton 2:50 448. Modeling the ligand-receptor mediated University, Princeton, NJ. adhesion of functionalized nanocarriers to live cells. N. Ramakrishnan1, H. Y. Yu1, D. M. Eckmann2, P. S. Ayyaswamy3, R. Radhakrishnan1; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Anesthesiology and Critical Care, University of Pennsylvania, Philadelphia, PA, 3Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

136 137 Colloidal and Surface Forces 5: Directed Assembly 5: Co-Assembly Electrostatics Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Meyerson B1 College Hall 200 Organizers: Cherie Kagan, Vinothan Manoharan Organizers: Eric Furst, Ray Dagastine Presider: A. Fafarman Presider: H. M. Wyss 1:30 454. Liquid crystalline self-assembly of Surface forces with patterned charge lanthanide-based anisotropic nanocrystals. T. 1:30 449. 1 2 1 1,2 heterogeneities. C. M. Pick1, G. Drazer2, Paik , D. Ko , T. R. Gordon , C. B. Murray ; J. Frechette1; 1Chemical and Biomolecular 1Department of Chemistry, University of Engineering, Johns Hopkins University, Pennsylvania, Philadelphia, PA, 2Department Baltimore, MD, 2Mechanical and Aerospace of Materials Science and Engineering, Engineering, Rutgers University, Piscataway, University of Pennsylvania, Philadelphia, PA. NJ. 1:50 455. Controlling the location of nanoparticles 1:50 450. Effect of Charge Inhomogeneity on in colloidal assemblies of amphiphilic Colloid Aggregation. Y. CHO1, S. A. Safran2, polymers by tuning nanoparticles surface M. In3, P. A. Pincus4; 1Asia Pacifi c Center chemistry. Q. Luo; Chemistry, University of for Theoretical Physics, Pohang, KOREA, Pennsylvania, Philadelphia, PA. REPUBLIC OF, 2Weizmann Institute, Rehovot, ISRAEL, 3CNRS-Universite Montpellier 2, 2:10 456. Concurrent self-assembly of molecular Montpellier, FRANCE, 4University of California, and nanoparticle amphiphiles into hybrid Santa Barbara, Santa Barbara, CA. vesicular assemblies with controlled pattern. Y. Liu1, Y. Li2, J. He1, K. Duelge1, Z. Lu2, Z. 1 1 2:10 451. Interactions forces and charging behavior Nie ; Chemistry and Biochemistry, University of deformable oil drops coated with mixture of Maryland College Park, College Park, 2 of ionic and non-ionic surfactants. S. Mettu, I. MD, State Key Laboratory of Theoretical Hadiputra, R. Dagastine; PFPC and the Dept and Computational Chemistry, Institute of of Chemical and Biomolecular Eng, University Theoretical Chemistry, Changchun, CHINA. of Melbourne, Parkville, AUSTRALIA. 2:30 457. Keynote Lecture: Muti-component 2:30 452. Poisson-Boltzmann Predictions of nanocrystal self assembly as a route to Forces between Charged Colloidal Particles mutifunctional materials and devices. in Solutions Containing Multivalent Ions. G. C. B. Murray; University of Pennsylvania, Trefalt, F. J. Montes Ruiz-Cabello, P. Maroni, Philadelphia, PA. M. Borkovec; Department of Inorganic and Analytical Chemistry, University of Geneva, Geneva, SWITZERLAND.

2:50 453. Predicting the equation of state of salty concentrated colloidal dispersions: Assessing the intrinsic error of the cell model. Y. HALLEZ, J. DIATTA, M. MEIRELES; University of Toulouse - LGC, Toulouse, FRANCE.

138 139 Electrokinetics: Drops and Particles Emulsions, Bubbles and Foams 5: Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Control of Surface Active Species DRL A5 at Interfaces Organizers: Darrell Velegol, Aditya Khair Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Presider: D. Velegol DRL A1 Organizers: Doug Durian, Jasna Brujic On the diffusioelectrophoretic motion of 1:30 458. Presider: A. Kotula oil droplets in water in microfl uidics. E. Knapp, C. Maldarelli; Chemical Engineering and Ultrasound based drug delivery and The Benjamin Levich Institute for Physico- 1:30 462. colloidal science of contrast agents. ; Chemical Hydrodynamics, The City College of N. Wallace Chemical and Biological Engineering, Drexel New York, New York, NY. University, Philadelphia, PA. A continuum approach to electrophoretic 1:50 459. Sequential adsorption behavior of a model mobility reversals. , A. S. Khair; 1:50 463. R. F. Stout dispersant-biosurfactant system at an oil/ Chemical Engineering, Carnegie Mellon aqueous interface. 1, S. L. Anna1,2, University, Pittsburgh, PA. S. M. Kirby L. M. Walker1; 1Chemical Engineering, Carnegie Mellon University, Pittsburgh, PA, 2Mechanical 2:10 460. Characterizing colloidal electrical Engineering, Carnegie Mellon University, properties for microfl uidic reconfi gurable Pittsburgh, PA. antennas. B. Rupp, M. Bevan; Johns Hopkins University, Baltimore, MD. 2:10 464. Polymer-grafted lignin: Aqueous dispersants from a renewable resource. N. 2:30 461. Keynote Lecture: Theory and Washburn1, C. Gupta2; 1Chemistry, Carnegie applications of bacterial polarization. C. R. Mellon University, Pittsburgh, PA, 2Materials Buie; Mechanical Engineering, Massachusetts Science & Engineering, Carnegie Mellon Institute of Technology, Cambridge, MA. University, Pittsburgh, PA.

2:30 465. Effects of fatty Acids on polyelectrolyte- surfactant interaction. J. Martinez Santiago, P. Somasundaran; Columbia University, New York, NY.

2:50 466. Amphiphilic particles with anisotropic shape as colloidal surfactants by microfl uidic- based electrospray. T. Kong1,2, Z. Liu1,2, T. Xu1, H. Shum1,2; 1the University of Hong Kong, Hong Kong, HONG KONG, 2the University of Hong Kong-Shenzhen Institute of Research and Innovation (HKU-SIRI), Shenzhen, CHINA.

140 141 Environmental Science 5 General Papers 5: Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Particles at Interfaces Houston Golkin Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Towne Heilmeier Organizers: Daniel Strongin, Howard Fairbrother Presider: D. Strongin Organizers: Joelle Frechette, Mike Bevan Presider: J. Frechette 1:30 467. Density functional theory calculations on a ferrihydrite nanoparticle. J. D. Kubicki; 1:30 471. Pickering-emulsion-templated Dept. of Geosciences, The Pennsylvania State encapsulation of a hydrophilic amine and University, University Park, PA. its enhanced stability in epoxy resin. A. D. Hughes1, J. Li2, J. S. Moore2, I. Drake1, T. 1:50 468. Surface thermodynamics and kinetics Kalantar3, C. Tucker3; 1The Dow Chemical of MgO(100) terrace site hydroxylation. J. T. Company, Spring House, PA, 2The University of Newberg; Chemistry & Biochemistry, University Illinois - Urbana-Champaign, Urbana, IL, 3The of Delaware, Newark, DE. Dow Chemical Company, Midland, MI.

2:10 469. Interactions of CH4 and CO2 with 1:50 472. Interfacial behavior of asphaltenes at montmorillonite surfaces: Theoretical electronic high temperature. M. Ghosh1, K. Karinshak2, structure calculations. M. D. Kilmer1, L. Tribe2; J. Guo2, J. Harwell2, B. Grady2; 1Phillips 66 1College of Earth and Mineral Sciences, The Company, Bartlesville, OK, 2School of Chemical, Pennsylvania State University, State College, Biological, and Materials Engineering, University PA, 2Division of Science, The Pennsylvania of Oklahoma, Norman, OK. State University - Berks Campus, Reading, PA. 2:10 473. Invited Lecture: Ultrasound-activated 2:30 470. Keynote Lecture: Solvation at the particle desorption from fl uid-fl uid liquid/vapor interface of aqueous solutions: interfaces: Desorption on demand. V. Implications for interface composition and Garbin; Chemical Engineering, Imperial College chemistry. J. C. Hemminger; Department of London, London, UNITED KINGDOM. Chemistry, University of California, Irvine, Irvine, CA. 2:30 474. Invited Lecture: Particles in liquid interfaces and the stabilization of colloidal multi-phase systems. Y. Zhang, J. Wu, H. Wang, J. C. Meredith, S. H. Behrens; School of Chemical & Biomolecular Engineering, Georgia Institute of Technology, Atlanta, GA.

2:50 475. From suspension to emulsion polymers: Challenges in industrial research. G. Cardoen; The Dow Chemical Company, Spring House, PA.

142 143 Glasses/Jamming 5: Molecular Self-Assembly 5 Theories and Models Tuesday, June 24, 2014,1:30 PM - 3:10 PM Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Cohen Terrace Skirkanich Berger Organizers: Dan Hammer, Darrin Pochan Organizers: Rob Riggleman, Andrea Liu, Eric Weeks Presider: D. Hammer Presider: E. Del Gado 1:30 480. Tunable Composite Nanocarriers for 1:30 476. Free energy landscapes and Magnetic Resonance Imaging, Multi-Modal rearrangements in a 3-disk model. E. R. Imaging and Theranostic Application. R. K. Weeks1, X. Du1, G. L. Hunter2; 1Physics, Prud’homme; Chem and Biol Engr, Princeton Emory University, Atlanta, GA, 2Physics, New University, Princeton, NJ. York University, New York, NY. 1:50 481. Water sensitive molecular self-assembly 1:50 477. Kinks in topological soft matter. B. of organogelators in oil: A bioinspired strategy G. Chen, N. Upadhyaya, V. Vitelli; Leiden for sealing oil leaks. H. Oh, N. Yaraghi, S. University, Leiden, NETHERLANDS. R. Raghavan; Chemical and Biomolecular Engineering, University of maryland, College Park, MD. 2:10 478. Invited Lecture: Mean-fi eld perspective on the glass and the jamming transitions in hard spheres. 2:10 482. Ionotropic gelation of common P. Charbonneau1, Y. Jin2, J. Kurchan3, synthetic polyelectrolytes as a facile route G. Parisi2, P. Urbani4, F. Zamponi3; 1Duke to underwater adhesion and long-term University, Durham, NC, 2Sapienza Universita controlled release. P. G. Lawrence, Y. Huang, di Roma, Rome, ITALY, 3Ecole Normale Y. Lapitsky; Chemical and Environmental Superieure, Paris, FRANCE, 4Universite Engineering, University of Toledo, Toledo, Paris-Sud 11, Paris, FRANCE. OH.

2:50 479. A unifying approach for the mechanical 2:30 483. Mechanical Properties of Two- response of glasses and jammed packings. Dimensional Alkanethiol-Coated Gold 1 A. Zaccone, E. Terentjev; Cavendish Nanoparticle Membranes. K. Salerno , D. Laboratory, University of Cambridge, S. Bolintineanu1, M. D. Lane2, G. S. Grest1; Cambridge, UNITED KINGDOM. 1Center for Integrated Nanotechnologies, Sandia National Laboratories, Albuquerque, NM, 2Sandia National Laboratories, Albuquerque, NM.

2:50 484. Bottom-up Construction of Surface Nano-Materials toward Functional Molecular Devices. Z. Li1, T. Wandlowski2, E. Borguet1; 1Temple University, Philadelphia, PA, 2The Department of Chemistry, University of Bern, Bern, SWITZERLAND.

144 145 Particles in Interfaces, Fields and Liquid Patchy and Janus Particles 5: Patchy and Crystals 5 Janus Particles as Solid Surfactants Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Irvine Amado Irvine Café ‘58

Organizers: Tony Dinsmore, Chris Santangelo, Organizers: Daeyeon Lee, Alberto Striolo Mohamed Gharbi Presider: S. Shojaei-Zadeh Presider: D. Beller 1:30 490. Protein-based organic-inorganic 1:30 485. Elasticity modifi ed capillary attraction of heterogeneous particles as a versatile particles on the surface of an ultra-soft gel. platform for Pickering foam and emulsion A. Chakrabarti, M. K. Chaudhury; Chemical stabilization. E. Blanco1, S. Smoukov1, O. Engineering, Lehigh University, Bethlehem, D. Velev1, K. P. Velikov2,3; 1Department PA. of Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 1:50 486. A numerical study of stretching of a 2Unilever R&D Vlaardingen, Vlaardingen, capillary bridge featuring a particle-laden NETHERLANDS, 3Soft Condensed Matter, interface. L. Botto; School of Engineering Debye Institute for Nanomaterials Science, and Materials Science, QML, Queen Mary Utrecht University, Utrecht, NETHERLANDS. University of London, London, UNITED KINGDOM. 1:50 491. Emulsion stabilization using amphiphilic dumbbells - Experimental and theoretical 2:10 487. The dynamics of sub-micron amphiphilic approaches. F. Tu, D. Lee; chemical and dumbbells at fl uid interfaces. N. Samudrala1, biomolecular engineering, univerisity of L. Isa2, E. R. Dufresne1; 1Yale University, pennsylvania, philadelphia, PA. New Haven, CT, 2ETH Zürich, Zürich, SWITZERLAND. 2:10 492. Understanding Pickering Emulsions using Multi-Scale Simulations. A. Striolo; 2:30 488. Capillary Attraction and Hydrodynamic Chemical Engineering Department, Resistance Between Two Floating Spheres University College London, London, UNITED At A Viscous Oil-Water Interface. A. Dani1, KINGDOM. G. Keiser2, M. Yeganeh2, C. Maldarelli1; 1Chemical Engineering, Benjamin Levich 2:30 493. Dumbbell Particles as a New Type Institute, City College of the City University of Colloidal Emulsifi er for Phase Transfer of New York, New York, NY, 2ExxonMobil Delivery. S. Wang, N. Wu; Chemical and Research and Engineering Company, biological engineering, Colorado School of Annandale, NJ. Mines, Golden, CO.

2:50 489. Compression and arrangement of 2:50 494. Rotational dynamics and diffusion of microgels at oil-water interfaces. K. Geisel1, Janus nanoparticles at liquid interfaces. H. L. Isa2, W. Richtering1; 1Institute of Physical Rezvantalab, G. Drazer, S. Shojaei-Zadeh; Chemistry, RWTH Aachen University, Aachen, Mechanical and Aerospace Engineering, GERMANY, 2Department of Materials, ETH Rutgers, The State University of New Jersey, Zürich, Zürich, SWITZERLAND. Piscataway, NJ.

146 147 Rheology and Dynamics 5 Wetting and Adhesion 5: Capillary Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Wetting and Adhesion DRL A7 Tuesday, June 24, 2014, 1:30 PM - 3:10 PM Levine Wu and Chen Organizers: Chinedum Osuji, Kelly Schultz Presider: M. Helgeson Organizers: Shu Yang, Eric Dufresne Presider: A. Jagota 1:30 495. From self-assembly to rheology in colloidal suspensions: a bottom-up approach. 1:30 500. Keynote Lecture: Solid drops: A. Zaccone1, H. H. Winter2, M. Ballauff3; 1 Capillary deformations of immersed elastic Cavendish Laboratory, University of rods. S. Mora1, C. Maurini2, B. Audoly2, Cambridge, Cambridge, UNITED KINGDOM, Y. Pomeau3; 1Université de Montpellier 2, 2Chemical Engineering, University of Montpellier, FRANCE, 2Université Paris 6, Massachusetts Amherst, Amherst, MA, 3Soft Paris, FRANCE, 3Department of Mathematics, Matter and Functional Materials, Helmholtz- University of Arizona, Tucson, AZ. Zentrum Berlin, Berlin, GERMANY. 2:10 501. Understanding tree frog adhesion 1:50 496. Achieving a ‘fl atter’ fi lm profi le for by peeling structured surfaces in fl uid applications in P-OLED displays: A numerical environments. C. Dhong, J. Frechette; and experimental investigation of mixed Chemical and Biomolecular Engineering, solvent inks and their infl uence on fi lm Johns Hopkins University, Baltimore, MD. shape. A. D. Eales1, N. Dartnell2, A. F. Routh1; 1Chemical Engineering, University 2:30 502. Capillary adhesion at the nanometer of Cambridge, Cambridge, UNITED scale. 1, M. O. Robbins2; 1Physics, 2 S. Cheng KINGDOM, Cambridge Display Technology Virginia Tech, Blacksburg, VA, 2Physics Ltd. (Company number 02672530), and Astronomy, Johns Hopkins University, Godmanchester, UNITED KINGDOM. Baltimore, MD.

paper withdrawn. 2:10 497. 2:50 503. Roles of the Elasto-Capillary Instability in the Adhesion of Soft Gels. A. Chakrabarti, M. 2:30 498. Scenarios of the dynamics of pore K. Chaudhury; Chemical Engineering, Lehigh clogging by soft colloids. P. BACCHIN1, G. University, Bethlehem, PA. Agbangla1, E. Climent2; 1Laboratoire de Génie Chimique, Université Paul Sabatier, Toulouse, FRANCE, 2Institut de Mécanique des Fluides, Institut National Polytechnique de Toulouse, Toulouse, FRANCE.

2:50 499. Predicting the hydrodynamic properties of superballs. D. J. Audus, A. M. Hassan, J. R. Royer, E. J. Garboczi, S. D. Hudson, J. F. Douglas; NIST, Gaithersburg, MD.

148 149 Active Colloids 6: External Fields Biocolloids 6: Mostly Contrast Agents Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Tuesday, June 24, 2014, 3:40 PM - 5:20 PM DRL A6 Houston Ben Franklin

Organizers: Zvonimir Dogic, Christina Marchetti Organizers: Dennis Discher, Michael Rubinstein Presider: D. Chen Presider: O. D. Velev

3:40 504. Fluid-Induced Propulsion of Rigid 3:40 509. Labeling monocytes with gold Particles in Complex Fluids. D. A. Gagnon, nanoparticles to track their recruitment to N. C. Keim, P. E. Arratia; Mechanical infarcted myocardium. P. Chhour1, P. C. Engineering and Applied Mechanics, Naha2, M. P. Reilly3, V. A. Ferrari3, D. P. University of Pennsylvania, Philadelphia, PA. Cormode2; 1Bioengineering, University of Pennsylvania, Philadelphia, PA, 2Radiology, 4:00 505. Dynamics of a self-propelled magnetic University of Pennsylvania, Philadelphia, colloidal particle. U. M. Cordova-Figueroa, PA, 3Cardiology, University of Pennsylvania, G. C. Vidal; Department of Chemical Philadelphia, PA. Engineering, University of Puerto Rico - Mayaguez, Mayaguez, PR. 4:00 510. Clustering of cyclodextrin functionalized microbeads visualized in real time. C. Arya, C. 4:20 506. paper withdrawn. Saez, H. Huang, S. R. Raghavan; University of Maryland, College Park, MD. 4:40 507. Structure and dynamics of self- assembling colloidal monolayers in oscillating 4:20 511. Ultra high payload bismuth nanoparticles magnetic fi elds. A. E. Koser, P. E. Arratia; as a novel computed tomography contrast Mechanical Engineering, University of agent. P. C. Naha1, A. L. Brown2, H. I. Litt1, Pennsylvania, Philadelphia, PA. A. M. Goforth2, D. P. Cormode1; 1Radiology, University of Pennsylvania, Philadelphia, 2 5:00 508. Photochromic behavior in Bi(CTAB)2- PA, Chemistry, Portland State University, PVP colloidal systym. C. Lu, S. Wong, Portland, OR. C. Goh; Chemistry, University of Toronto, Toronto, ON, CANADA. 4:40 512. Polyphosphazene nanospheres with gold nanoparticle cores as biodegradable contrast agents for computed tomography. R. Cheheltani1, P. Chhour1, M. Akhter1, R. M. Ezzibdeh1, P. C. Naha1, V. A. Ferrari1, H. Allcock2, D. P. Cormode1; 1University of Pennsylvania, Philadelphia, PA, 2Pennsylvania State University, State College, PA.

5:00 513. Iodinated nanoparticles for PET imaging and targeting. R. K. Prud’homme; Chem and Biol Engr, Princeton University, Princeton, NJ.

150 151 Biointerfaces 6: Interfacial Binding Colloidal and Surface Forces 6: Phenomena Nanoparticles Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Houston Class of ‘49 College Hall 200

Organizers: Ravi Radakrishnan, Tobias Baumgart Organizers: Eric Furst, Ray Dagastine Presider: T. Baumgart Presider: B. Madivala Gurappa

3:40 514. Association of model neurotransmitters 3:40 518. Lessons in lyophilization and with lipid bilayer membranes. B. Josey1, redispersion of nanoparticles. R. K. F. Heinrich1,2, M. Lösche1,2,3, R. S. Cantor4; Prud’homme; Chem and Biol Engr, Princeton 1Department of Physics, Carnegie Mellon University, Princeton, NJ. University, Pittsburgh, PA, 2Center for Neutron Research, National Institute of Standards and 4:00 519. Surface forces between adsorbed Technology, Gaithersburg, MD, 3Biomedical polymer brush nanoparticles. J. K. Riley1, K. Engineering, Carnegie Mellon University, Matyjaszewski2, R. D. Tilton3; 1Department Pittsburgh, PA, 4Department of Chemistry, of Chemical Engineering, Carnegie Mellon Dartmouth College, Hanover, NH. University, Pittsburgh, PA, 2Department of Chemistry, Carnegie Mellon University, 4:00 515. Induction of a lipid phase change in Pittsburgh, PA, 3Department of Chemical and the host cell membrane by the RTX toxins: Biomedical Engineering, Carnegie Mellon More than pore formation. A. C. Brown1, K. University, Pittsburgh, PA. Boesze-Battaglia2, E. T. Lally2; 1Chemical Engineering, Lehigh University, Bethlehem, 4:20 520. A Straightforward, One-Step Synthesis PA, 2University of Pennsylvania, Philadelphia, of Single Ligand Alkanethiol Capped Silver PA. Nanoparticles from an Aggregative Model of Growth. Z. Farrell, C. Shelton, C. Dunn, A. Jo, 4:20 516. Keynote Lecture: A MOLECULAR D. Green; Chemical Engineering, University MECHANISM FOR DIFFERENTIAL of Virginia, Charlottesville, VA. RECOGNITION OF MEMBRANE PHOSPHATIDYLSERINE BY THE IMMUNE 4:40 521. Effect of sodium chloride and sodium REGULATORY RECEPTOR TIM4. K. Y. dodecyl sulfate on the stability of TiO2 Lee; Department of Chemistry, University of particles in water against aggregation and Chicago, Chicago, IL. sedimentation. Y. YANG1, X. Zhu1, G. Bai1, A. Kelkar1, H. Ng2, E. Franses1, D. Corti1; 5:00 517. Physical chemistry and biophysics of 1Chemical Engineering, Purdue University, fat digestion. N. D. Denkov1, Z. Vinarov1, west lafayette, IN, 2Printing and Content S. Tcholakova1, S. Stoyanov2; 1Department Delievery Lab, HP Labs, Hewlett-Packard of Chemical Engineering, Sofi a University, Co., Palo Alto, CA. Sofi a, BULGARIA, 2Laboratory of Physical Chemistry and Colloid Science, Wageningen 5:00 522. Aqueous two-phase separation of single- University, Wageningen, NETHERLANDS. wall carbon nanotubes. J. Fagan; Materials Science and Engineering Division, National Institute of Standards and Technology, Gaithersburg, MD.

152 153 Directed Assembly 6: Electrokinetics: General Field-Assisted Assembly I Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Tuesday, June 24, 2014, 3:40 PM - 5:20 PM DRL A5 Meyerson B1 Organizers: Darrell Velegol, Aditya Khair Organizers: Cherie Kagan, Vinothan Manoharan Presider: A. Khair Presider: M. Cargnello 3:40 528. Separation of Enzymes using 3:40 523. Diffusionless Transformations in Chemotaxis in a Microfl uidic Channel. S. Das, 2-D Colloidal Alloys Formed by Magnetic K. K. Dey, M. Poyton, S. Sengupta, A. Sen, Assembly. Y. Yang1,2, C. Marcoux3,2, L. Fu4,2, P. Cremer; Department of Chemistry, Penn J. Socolar3,2, P. Charbonneau4,2, G. Lopez5,2,1, State University, State College, PA. B. Yellen1,2,6; 1Department of Mechanical Engineering and Materials Science, Duke 4:00 529. Infl uence of particle/solid surface zeta University, Durham, NC, 2NSF Research potential on particle adsorption kinetics. K. V. Triangle MRSEC, Durham, NC, 3Department Savaji, A. Couzis; Chemical Engineering, City of Physics, Duke University, Durham, NC, College of New York, New York, NY. 4Department of Chemistry, Duke University, Durham, NC, 5Department of Biomedical 4:20 530. Selective electrosorption of metal ions Engineering, Duke University, Durham, NC, via tuning surface properties of titanium 6UM-SJTU Joint Institute, Shanghai, CHINA. dioxide nanotubes. P. Taboada-Serrano, C. Richter, T. Close, S. Pedu, S. Pustulka; 4:00 524. Colloidal assembly directed by virtual Chemical and Biomedical Engineering, magnetic moulds. A. F. Demirörs1, B. Rochester Institute of Technology, Rochester, Grzybowski2; 1Dept. Materials, ETH Zurich, NY. Zurich, SWITZERLAND, 2Dept. Chemistry, Northwestern University, Evanston, IL. 4:40 531. Microfl uidic Electrophoresis of Metallodielectric Patchy Particles. J. Cui; 4:20 525. Rayleigh-Plateau instability in toggled Pen-Tung Sah Institute, Xiamen University, fi elds. J. L. Bauer, E. M. Furst; Chemical Xiamen, CHINA. and Biomolecular Engineering, University of Delaware, Newark, DE. 5:00 532. Broken Symmetry in Electrokinetic Flow: The Propulsion of Dielectric and 1 2 4:40 526 Directed assembly of microactuators: Metal-dielectric Dimers. f. ma , H. Zhao , N. Field-controlled folding and bending of chains Wu1; 1chemical and biological engineerning, of patchy microcubes. C. W. Shields, IV1,2, colorado school of mines, golden, CO, K. Han3, B. Bharti2,3, O. D. Velev2,3, G. P. 2Department of Mechanical Engineering, Lopez1,2,4; 1Biomedical Engineering, Duke University of Nevada, Las Vegas, Las Vegas, University, Durham, NC, 2NSF Research NV. Triangle Materials Research Science and Engineering Center, Durham, NC, 3Chemical and Biomolecular Engineering, NC State University, Raleigh, NC, 4Mechanical Engineering and Materials Science, Duke University, Durham, NC.

5:00 527. Aligned nanoporous polymers by magnetic fi eld directed self-assembly of a polymerizable lyotropic template. M. E. Tousley, X. Feng, M. Elimelech, C. O. Osuji; Chemical and Environmental Engineering, Yale University, New Haven, CT.

154 155 Emulsions, Bubbles and Environmental Science 6 Foams 6: Fabrication of Foam/Emulsion- Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Templated Materials Houston Golkin Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Organizers: Daniel Strongin, Howard Fairbrother DRL A1 Presider: D. Strongin Organizers: Doug Durian, Jasna Brujic paper withdrawn. Presider: D. J. Pine 3:40 538. Silver nanoparticle uptake and growth 3:40 533. Porous ceramic materials from foam 4:00 539. inhibition in wheat. 1, C. O. precursors - design rules. N. D. Denkov, D. W. Britt Dimkpa2, J. E. McLean3, N. Martineau2, R. S. Tcholakova, I. Lesov; Department of 4 2 1 Chemical Engineering, Sofi a University, Sofi a, Haverkamp , A. J. Anderson ; Biological BULGARIA. Engineering, Utah State University, Logan, UT, 2Biology, Utah State University, Logan, UT, 3Utah Water Research Laboratory, Aqueous-based processing of functional 4:00 534. Utah State University, Logan, UT, 4School porous polymer composites. S. Shojaei- of Engineering and Advanced Technology, , H. Rezvantalab; Mechanical and Zadeh Massey University, Palmerston North, NEW Aerospace Engineering, Rutgers, The State ZEALAND. University of New Jersey, Piscataway, NJ. Preparation characterization and Fabrication and Properties of Emulsion- 4:20 540. 4:20 535. application of a PSF/zirconium based Templated Porous and Composite Films from nanoparticle blend fl at sheet membrane. Microfi brillated Cellulose. 1, Y. Zeng1, H. Kim L. YU, Y. YU, ; Civil and K. P. Velikov2,3, O. D. Velev1; 1Chemical & J. P. Chen Environmental Engineering, National Biomolecular Engineering, North Carolina University of Singapore, Singapore, State University, Raleigh, NC, 2Unilever R&D, SINGAPORE. Vlaardingen, NETHERLANDS, 3Utrecht University, Utrecht, NETHERLANDS. 4:40 541. Supported lipid bilayer nanoparticles for remediation of organic toxins. 1, J. A new class of food-grade amphiphiles H. Wang 4:40 536. Drazenovic1, B. Kim2, S. Wunder1; 1Chemistry, for the treatment and remediation of oil Temple University, Philadelpha, PA, 2Earth spills. 1, K. Jun2, C. McCafferty1, J. C. Athas and Environmental Science, Temple O. Owoseni3, V. T. John3, S. R. Raghavan2; University, Philadelpha, PA. 1Chemistry and Biochemistry, University of Maryland, College Park, MD, 2Chemical and Biomolecular Engineering, University of 5:00 542. Chemical behavior of different species Maryland, College Park, MD, 3Chemical and of phosphorus in coagulation process for Biomolecular Engineering, Tulane University, phosphorus removal. E. Chung, T. Park, V. New Orleans, LA. Ampunan; Seoul National University, Seoul, KOREA, REPUBLIC OF. 5:00 537. Gold nanoparticle coated microbubbles for enhanced photoacoustic imaging. M. A. Borden, J. Dove, T. Murray; Mechanical Engineering, University of Colorado, Boulder, CO.

156 157 General Papers 6: Complex Mixtures Glasses/Jamming 6: Shear Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Thickening and Mechanical Responses Towne Heilmeier Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Skirkanich Berger Organizers: Joelle Frechette, Mike Bevan Presider: P. Somasundaran Organizers: Rob Riggleman, Andrea Liu, Eric Weeks Presider: R. S. Hoy 3:40 543. Spreading of surfactant-laden aerosols at fl uxes comparable to the conducting zone Material properties of the shear- 1 3:40 548. in pulmonary airways. A. Khanal , T. E. thickened state in concentrated near hard- 1,2 3 1,4 Corcoran , S. Garoff , T. M. Przybycien , sphere colloidal dispersions. , 1,4 1 C. Cwalina R. D. Tilton ; Biomedical Engineering, N. Wagner; Department of Chemical and Carnegie Mellon University, Pittsburgh, Biomolecular Engineering, University of 2 PA, Medicine, University of Pittsburgh, Delaware, Newark, DE. Pittsburgh, PA, 3Physics, Carnegie Mellon University, Pittsburgh, PA, 4Chemical 4:00 549. Invited Lecture: Transient, localized Engineering, Carnegie Mellon University, jamming in concentrated suspensions. Pittsburgh, PA. E. Brown, S. Mukhopadhyay, B. Allen; Mechanical Engineering and Materials 4:00 544. Free-solution electrophoresis of end- Science, Yale University, New Haven, CT. alkylated DNA in entangled networks of wormlike micelles. , J. W. J. M. Goldman 4:40 550. Glass and gel states of asymmetric Schneider; Chemical Engineering, Carnegie binary colloidal mixtures. M. Laurati, T. Mellon University, Pittsburgh, NY. Sentjabrskaja, J. Hendricks, S. Egelhaaf; Heinrich-Heine University Düsseldorf, 4:20 545. Invited Lecture: Dynamics of Düsseldorf, GERMANY. nanoparticles in models of soft and hard K. He, F. Babaye Khorasani, porous media. 5:00 551. Effects of Atomic Layer Deposition on R. Krishnamoorti, J. Conrad; University of the Mechanical Behavior of Nano-Colloidal Houston, Houston, TX. 1 2 3 Crystals. D. Zhang , L. Zhang , D. Lee , X. Cheng4, G. Feng1; 1Department of Mechanical 4:40 546. Assembly of 3D Ordered Binary Silica Engineering, Villanova univeristy, Villanova, Nanoparticle Superlattices and Multi-modal PA, 2Department of Mechanical Engineering, Porous Carbons. S. KUNG, M. A. Snyder; University of Alaska - Fairbanks, Fairbanks, CHEMICAL ENGINEERING, LEHIGH AK, 3Department of Cheimcal Engineering, UNIVERSITY, BETHLEHEM, PA. University of Pennsylvania, Philadephia, PA, 4Department of Physics, Bryn Mawr College, 5:00 547. Engineered-micelles: an improved Bryn Mawr, PA. method for purifi cation of membrane proteins. G. Patchornik; Biological chemistry, Ariel University, Ariel, ISRAEL.

158 159 Molecular Self-Assembly 6 Particles in Interfaces, Fields Tuesday, June 24, 2014, 3:40 PM - 5:20 PM and Liquid Crystals 6 Cohen Terrace Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Irvine Amado Organizers: Dan Hammer, Darrin Pochan Presider: D. Hammer Organizers: Tony Dinsmore, Chris Santangelo, Mohamed Gharbi 3:40 552. Living photonic devices: Self-assembly Presider: F. Serra from proteins as patchy colloids. A. Sweeney, A. L. Holt, J. Cai, T. Dodson, J. Townsend; 3:40 557. Keynote Lecture: Confi ned assembly Physics and Astronomy, University of of “soft” colloids in micropost arrays. Pennsylvania, Philadelphia, PA. S. Yang, G. Wu; Materials Science & Engineering, University of Pennsylvania, 4:00 553. Complexes of chitosan/alkylethoxy Philadelphia, PA. carboxylate: A rich variety of structures. M. 1 1 1 Gradzielski , L. Chiappisi , S. Prevost , I. 4:20 558. Properties of curvature remodeling Grillo2; 1Institut of Chemistry, Technische proteins at membrane interfaces. 2 N. Universitaet Berlin, Berlin, GERMANY, LSS Ramakrishnan, R. P. Bradley, R. W. group, Institut Laue-Langevin (ILL), Grenoble, Tourdot, R. Radhakrishnan; Chemical and FRANCE. Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA. 4:20 554. The role of solvent fl uctuations in hydrophobically driven assembly. R. C. 4:40 559. A theory for depletion-induced colloidal Remsing, A. J. Patel; Chemical and membranes. L. Kang, T. C. Lubensky; Biomolecular Engineering, University of Physics & Astronomy, University of Pennsylvania, Philadelphia, PA. Pennsylvania, Philadelphia, PA.

4:40 555. Thermodynamic Interpretation on the 5:00 560. Colloids attached to lipid membranes: Buildup of Polyelectrolyte Multilayer Films. J. Interparticle force measurements. R. Sarfati, Li, Y. Min; Polymer Engineering, University of E. R. Dufresne; Yale University, New Haven, Akron, Akron, OH. CT.

5:00 556. Quiescent bilayers at the mica-water interface. F. Speranza1, R. K. Thomas2, W. H. Briscoe1; 1School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM, 2PTCL, University of Oxford, Oxford, UNITED KINGDOM.

160 161 Patchy and Janus Particles 6 Rheology and Dynamics 6 Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Irvine Café ‘58 DRL A7

Organizers: Daeyeon Lee, Alberto Striolo Organizers: Chinedum Osuji, Kelly Schultz Presider: L. Botto Presider: K. M. Schultz

3:40 561. Functionalizing colloids with DNA 3:40 566. Dynamics and structure: A study of origami. M. Ben Zion1, C. Maass1, K. Wu1, R. gelation in a non-aqueous colloidal system. Sha2, N. Seeman2, P. Chaikin1; 1Physics, New F. R. Bartholomew1, P. J. Dowding2, York University, New York, NY, 2Chemistry, A. F. Routh1; 1Department of Chemical New York University, New York, NY. Engineering, University of Cambridge, Cambridge, UNITED KINGDOM, 2Infi neum 4:00 562. Proteins as patchy colloids: Structure UK Ltd., Abingdon, UNITED KINGDOM. and self-assembly of graded index materials in squid lenses. J. Cai, P. Heiney, A. 4:00 567. Analyzing hydrodynamics and length Sweeney; University of Pennsylvania, distributions of carbon nanotubes using Philadelphia, PA. analytical ultracentrifugation. J. Fagan, C. Silvera Batista; Materials Science and 4:20 563. Polymer Nanoparticles by Flash Engineering Division, National Institute of Nanoprecipitation. C. Sosa, R. Prudhomme, Standards and Technology, Gaithersburg, R. Priestley; Chemical and Biological MD. Engineering, Princeton University, Princeton, NJ. 4:20 568. Development of a microstructure based model for thixotropy in colloidal 4:40 564. Highly uniform polyhedral colloids dispersions based on population balances. formed by colloidal crystal templating. Y. P. M. Mwasame, A. N. Beris, N. J. Wagner; Wang, J. C. Crocker, J. McGinley; Chemical Chemical and Biomolecular Engineering, and Biomolecular Engineering, University of University of Delaware, Newark, DE. Pennsylvania, Philadelphia, PA. 4:40 569. Using colloids to model worm-like 5:00 565. Janus particles at liquid interfaces. H. micelles. K. V. Edmond1, T. W. Jacobson2, Rezvantalab, S. Shojaei-Zadeh; Mechanical S. Sacanna3, A. D. Hollingsworth1, D. J. and Aerospace Engineering, Rutgers, The Pine1; 1Physics, New York University, New State University of New Jersey, Piscataway, York, NY, 2Bridgewater - Raritan High School, NJ. Bridgewater, NJ, 3Chemistry, New York University, New York, NY.

162 163 Wetting and Adhesion 6: Antifouling and Unilever Award 2014 Lecture Measurement Tuesday, June 24, 2014, 5:30 PM - 6:30 PM Tuesday, June 24, 2014, 3:40 PM - 5:20 PM Irvine Auditorium Levine Wu and Chen Organizers: P. Somasundaran, Mike Bevan Organizers: Shu Yang, Eric Dufresne Presider: P. Somasundaran Presider: E. Dufresne 5:30 575. Janus particles at fl uid interfaces: 3:40 570. Direct optical measurement of molecular the third face of Janus. D. Lee; Chemical adsorption on invisible plastic. R. Lanfranco1, and Biomolecular Engineering, University of E. Di Nicolò2, F. Giavazzi1, M. Salina3, R. Pennsylvania, Philadelphia, PA. Cerbino1, T. Bellini1, M. Buscaglia1; 1Medical Biotechnology and Translational Medicine, Abstract: University of Milan, Segrate, ITALY, 2Solvey Janus particles are asymmetric colloids with polar and Specialty Polymers, Bollate, ITALY, 3Proxentia apolar sides. To enable the use of these amphiphilic s.r.l., Milano, ITALY. particles as solid surfactants for the stabilization of multiphasic mixtures such as emulsions and foams, it 4:00 571. Super-Repellent Surfaces Reduce is critical to understand their behaviour at interfaces. Bioadhesion. J. Zhao, W. Ming; Chemistry In this talk, I will discuss three aspects of the interfacial Department, Georgia Southern University, behaviour of Janus particles: (1) the lateral interactions Statesboro, GA. between Janus spheres at fl uid interfaces, (2) the confi guration and assembly of non-spherical Janus 4:20 572. Novel Single and Multi-cycle Wilhelmy particles at interfaces, and (3) the thermodynamics Plate Methods for Wetting, Swelling and of emulsion stabilization using Janus particles. We Sorption of Porous Materials such as Wood. fi rst show that Janus spheres have strikingly different M. Sedighi Moghaddam1, A. Swerin1, M. interfacial behavior compared to their homogeneous E. Wålinder2, P. M. Claesson3; 1Chemistry, counterparts. Janus spheres at a fl uid interface interact Materials and Surfaces, SP Technical with each other via long-ranged attractions. The Research Institute of Sweden, Stockholm, attractive interactions between interface-trapped Janus SWEDEN, 2School of Architecture and the spheres are induced by the presence of diffuse boundary Built Environment, Department of Civil and between the two hemispheres. Three phase contact line Architectural Engineering, KTH Royal Institute anchored around the rugged Janus boundary deforms of Technology, Stockholm, SWEDEN, 3School the fl uid interface, leading to attractive interactions of Chemical Science and Engineering, between the spheres. In the second part of the talk, Department of Chemistry, Surface and inspired by the extensive work in the fi eld of surfactant Corrosion Science, KTH Royal Institute of and block copolymer self-assembly, I will discuss the Technology, Stockholm, SWEDEN. confi gurations of nonspherical Janus particles such as ellipsoids, dumbbells, and cylinders at an oil-water 4:40 573. A fundamental approach to interface. To determine the equilibrium confi gurations, understanding the fouling resistance of we numerically calculate and minimize the attachment exterior coatings. M. Q. Tran, J. M. Rokowski, energy of each Janus particle as a function of the R. C. Even; The Dow Chemical Company, orientation angle as well as the vertical displacement Spring House, PA. with respect to the interface. We fi nd that the equilibrium orientation of nonspherical Janus particles strongly 5:00 574. Bioinspired patterning with extreme depends on the particle characteristics, such as their wettability contrast on TiO2 nanotube array size, shape, aspect ratio, surface wettability, and the surface: a versatile platform for biomedical location of the Janus boundary. In the last part of my applications. Y. Lai1,2; 1College of Textile talk, I will discuss the thermodynamic aspect of emulsion and Clothing Engineering, Suzhou, CHINA, formation using homogenous and Janus particles. 2National Engineering Laboratory of Modern Because the attachment energy of Janus particles Silk, Suzhou, CHINA. to fl uid-fl uid interfaces is signifi cantly larger than that of homogenous particles, it is possible to generate Pickering emulsions that are thermodynamically stable when Janus particles are used as stabilizers.

164 165 LaMer Award 2014 Lecture Biocolloids 7: Drug Carriers Wednesday, June 25, 2014, 8:20 AM - 9:20 AM Wednesday, June 25, 2014, 9:50 AM - 12:10 PM Irvine Auditorium Houston Ben Franklin

Organizers: Daeyeon Lee, Mike Bevan Organizers: Dennis Discher, Michael Rubinstein Presider: Daeyeon Lee Presider: D. J. Pine

8:20 576. Dynamic modeling of colloidal 9:50 577. Keynote Lecture: Cell-mimetic assembly. D. Beltran-Villegas; Biointerfaces Synthetic Colloids for Biological Institute, University of Michigan, Ann Arbor, Applications. S. Mitragotri; Chemical MI. Engineering, UC Santa Barbara, Santa Barbara, CA. Abstract: Understanding concentrated colloidal dynamics in the 10:30 578. Layer by layer assembly of nanoparticle presence of different pairwise interactions and external for encapsulation and release of peptide fi elds provides a basis to predict the temporal evolution therapeutics. R.F. Pagels, R. K. Prud’homme; of colloidal microstructures in diverse phenomena Chem and Biol Engr, Princeton University, NJ. including suspension rheology and colloidal assembly. However, a microscopic theory of concentrated colloidal 10:50 579. Friend or foe: inhibiting phagocytic dynamics does not yet exist that rigorously includes both clearance by shape, fl exibility, and ‘Marker statistical mechanical (confi guration dependent free of Self’. P. Nair, P. Rodriguez, T. Harada, D. energy changes) and fl uid mechanical (confi guration Christian, D. Pantano, E. Pratt, A. Bradshaw, dependent multi-body hydrodynamic interactions) N. Sancho Oltra, K. Spinler, D. Discher; contributions. This work shows the implementation of a University of Pennsylvania, Philadelphia, PA. novel approach to model colloidal assembly by means of analyzing the temporal evolution of microstructures, that 11:10 580. Hydrodynamic models for deformable can be observed in experiments and simulation, with a functionalized nanocarriers. A. Sarkar1, small number of order parameters that describe the state D. M. Eckmann2, P. S. Ayyaswamy3, R. of the system. This methodology is used to analyze the Radhakrishnan1; 1Chemical and Biomolecular structure evolution of isotropic and anisotropic colloidal Engineering, University of Pennsylvania, building blocks. Knowledge of these dynamic models Philadelphia, PA, 2Anesthesiology and enable the fundamental understanding of assembly Critical Care, University of Pennsylvania, systems, as well as the optimization, design and control Philadelphia, PA, 3Mechanical Engineering of assembly systems to produce low-defect colloidal and Applied Mechanics, University of crystals. Pennsylvania, Philadelphia, PA.

11:30 581. Microbubble Size, Acoustic Interactions and In Vitro Sonoporation Effi ciency. M. A. Borden, K. Song, A. Fan; Mechanical Engineering, University of Colorado, Boulder, CO.

11:50 582. Colloidal properties of erythrosomes derived from red blood cells. Y. Kuo1, D. Huang2, H. Oh2, W. D’Souza1,3, S. Raghavan1,2; 1Bioengineering, University of Maryland, College Park, MD, 2Chemical and Biomedical Engineering, University of Maryland, College Park, MD, 3Radiation Oncology, University of Maryland School of Medicine, Baltimore, MD.

166 167 Biointerfaces 7: Biochemistry and Colloidal and Surface Forces 7: Surface Biomedical Applications Forces and Friction Wednesday, June 25, 2014, 9:50 AM - 12:10 PM Wednesday, June 25, 2014, 9:50 AM - 12:10 PM Houston Class of ‘49 College Hall 200

Organizers: Ravi Radakrishnan, Tobias Baumgart Organizers: Eric Furst, Ray Dagastine Presider: T. Baumgart Presider: Z. Xu

9:50 583. Trifl uorosilane induced structural 9:50 588. Sustained frictional instabilities on transitions in proteins in sol and gel. D. W. nanostructured surfaces: Stick-slip amplitude Britt1, N. W. Turner2, Y. Peng1, A. Giasuddin1; coeffi cient (SSAC). B. Quignon, W. H. 1Biological Engineering, Utah State University, Briscoe; School of Chemistry, University of Logan, UT, 2Department of Life, Health & Bristol, Bristol, UNITED KINGDOM. Chemical Sciences, The Open University, Milton Keynes, UNITED KINGDOM. 10:10 589. Direct measurement of an anchoring transition in a nematic liquid crystal subject 10:10 584. NonSELEX approach to identify DNA to hybrid anchoring conditions. M. Ruths1, aptamers for gold substrates. M. N. Tapp1, R. B. Zappone2; 1Department of Chemistry, Sullivan1, P. Dennis2, R. R. Naik2, V. T. Milam1; University of Massachusetts Lowell, Lowell, 1Materials Science & Engineering, Georgia MA, 2CNR-IPCF Liquid Crystal Lab, University Institute of Technology, Atlanta, GA, 2Wright- of Calabria, Rende, ITALY. Patterson Air Force Research Laboratory, Wright-Patterson AFB, OH. 10:30 590. Twin-path surface force apparatus and its applications. K. Kurihara1,2, M. Mizukami3, 10:30 585. Interfacial Biofi lm Formation Regulated M. Kasuya3; 1AIMR, Tohoku University, by Geometry. Y. Chang1, T. Angelini2, S. Sendai, JAPAN, 2Imram, Tohoku University, Marquez3, H. Kim1, A. Fernandez-Nieves1; Sendai, JAPAN, 3IMRAM, Tohoku University, 1School of Physics, Georgia Institute of Sendai, JAPAN. Technology, Atlanta, GA, 2Mechanical & Aerospace Engineering, University of 10:50 591. Lubrication by polymersomes under Florida, Gainesville, FL, 3Maggie L. Walker nanoconfi nement. J. E. Bartenstein1, J. S. Governor’s School for Government and Diget2, B. Ø. Nystrøm2, P. M. Claesson3, W. International Studies, Richmond, VA. H. Briscoe1; 1School of Chemistry, University of Bristol, Bristol, UNITED KINGDOM, 10:50 586. Functional and Structural 2Department of Chemistry, University of Characterization of the Enzybiotic PlyC at Oslo, Oslo, NORWAY, 3Department of Lipid Membrane Interfaces. M. Barros1, T. Chemistry, KTH Royal Institute of Technology, Vennemann1, F. Heinrich2,3, D. Nelson4, M. Stockholm, SWEDEN. Lösche2,3; 1Department of Physics, Carnegie Mellon University, Pittsburgh, PA, 2Physics, 11:10 592. Measuring the hydrophobic force in a Carnegie Mellon University, Pittsburgh, soft matter system. R. F. Tabor1, C. Wu2, F. PA, 3National Institute of Standard and Grieser2, R. R. Dagastine2, D. Chan2; 1School Technology (NIST), Gaithersburg, MD, of Chemistry, Monash University, Clayton, 4Institute for Bioscience and Biotechnology AUSTRALIA, 2University of Melbourne, Research, University of Maryland, Rockville, Parkville, AUSTRALIA. MD. 11:30 593. Solvent cavitation under solvophobic 11:10 587. Biodetoxifi cation by Lipid Emulsion confi nement. H. Ashbaugh; Chemical and Droplets: Coarse Grained Molecular Biomolecular Engineering, Tulane University, Dynamics at the Oil/Water Interface. M. A. New Orleans, LA. Ayee, B. S. Akpa; Chemical Engineering, University of Illinois at Chicago, Chicago, IL.

168 169 11:50 594. Long-range interaction forces between Directed Assembly 7: hydrophobic and superhydrophobic surfaces studied by AFM colloidal probe microscopy. Templated Assembly P. M. Hansson1, A. Swerin1, M. Wåhlander2, Wednesday, June 25, 2014, 9:50 AM - 12:10 PM E. Thormann3, P. M. Claesson3; 1Chemistry, Meyerson B1 Materials and Surfaces, SP Technical Research Institute of Sweden, Stockholm, Organizers: Cherie Kagan, Vinothan Manoharan SWEDEN, 2Department of Chemistry, Fibre Presider: C. Kagan and Polymer Technology, KTH Royal Institute of Technology, Stockholm, SWEDEN, 9:50 595. Patterned transparent conductive 3Department of Chemistry, Surface and Au fi lms through direct reduction of gold Corrosion Science, KTH Royal Institute of thiocyanate on surfaces. R. Jelinek, T. Vinod; Technology, Stockholm, SWEDEN. Chemistry, Ben Gurion University, Beer Sheva, ISRAEL.

10:10 596. Reconfi gurable depletion mediated assembly on multi-scale physical patterns. T. D. Edwards, M. A. Beavn; Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, MD.

10:30 597. Manipulating the assembly of colloids through the use of nucleation centers. S. S. Lee, X. Zhong, M. D. Ward; Chemistry, New York University, New York, NY.

10:50 598. Nano-disco balls: Polyphosphazene nanospheres surface loaded with diagnostically active nanocrystals. P. Chhour1, N. Gallo2, R. Cheheltani2, D. Williams3, A. Al-Zaki1, T. Paik4, J. L. Nichol5, Z. Tian5, P. C. Naha2, H. R. Allcock5, C. B. Murrary4, A. Tsourkas1, D. P. Cormode2; 1Bioengineering, University of Pennsylvania, Philadelphia, PA, 2Radiology, University of Pennsylvania, Philadelphia, PA, 3Biochemistry and Biophysics, University of Pennsylvania, Philadelphia, PA, 4Chemistry, University of Pennsylvania, Philadelphia, PA, 5Chemistry, Pennsylvania State University, State College, PA.

170 171 11:10 599. Plasmon-enhanced upconversion Emulsions, Bubbles and Foams 7: luminescence in individual nanophosphor- nanorod structures formed through template- Emulsions Coated with Nanoparticles, assisted self-assembly. N. J. Greybush1, Polymeric Shells and Metals / Armored M. Saboktakin2, X. Ye3, S. Oh1, C. Della Emulsions Giovampaola2, N. E. Berry1, N. Engheta2,1,4, Wednesday, June 25, 2014, 9:50 AM - 12:10 PM C. B. Murray3,1, C. R. Kagan2,1,3; 1Department DRL A1 of Materials Science and Engineering, University of Pennsylvania, Philadelphia, Organizers: Doug Durian, Jasna Brujic 2 PA, Department of Electrical and Systems Presider: M. F. Haase Engineering, University of Pennsylvania, Philadelphia, PA, 3Department of Chemistry, 9:50 602. Making and breaking particle bridges University of Pennsylvania, Philadelphia, PA, in Pickering emulsions. , P. S. 4 D. J. French Department of Bioengineering, University of Clegg; School of Physics and Astronomy, Pennsylvania, Philadelphia, PA. University of Edinburgh, Edinburgh, UK.

Electrophoretic deposition of iron oxide 11:30 600. 10:10 603. Tunably soft colloids synthesis and nanoparticles: Dynamics and 2D assembly. characterization by holographic microscopy. , S. A. Majetich; Physics, 1 2 1 S. D. Oberdick C. Wang , H. Shpaisman , D. G. Grier ; Carnegie Mellon University, Pittsburgh, PA. 1Physics Department, New York University, New York, NY, 2Department of Chemistry, 11:50 601. Biomolecule triggered shape Bar-Ilan University, Ramat Gan, ISRAEL. transformation of hybrid hydrogels. J. C. 1 2 1 2 Athas , K. Jun , C. McCafferty , B. Zarket , Gelatin particles stabilized Pickering 1 2 1 10:30 604. Z. Nie , S. R. Raghavan ; Chemistry and High Internal Phase Emulsion as Biochemistry, University of Maryland, College nutraceutical containers. 1, W. Lin2, T. 2 H. Tan Park, MD, Chemical and Biomolecular Ngai3; 1Department of Pharmaceutics and Engineering, University of Maryland, College Bioengineering, Sichuan University, Chengdu, Park, MD. CHINA, 2National Engineering Laboratory for Clean Technology of Leather Manufacture, Sichuan University, Chengdu, CHINA, 3Department of Chemistry, The Chinese University of Hong Kong, Hong Kong, HONG KONG.

10:50 605. Designing smart, responsive communicating microcapsules from polymersomes. W. Jang1, S. Park1, F. Tu1, S. J. Henry2, D. Lee1, D. A. Hammer1; 1Chemical and Biological Engineering, University of Pennsylvania, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

11:10 606. Bicontinuous emulsions stabilized by nanoparticles. M. Reeves, J. Thijssen; SUPA School of Physics and Astronomy, University of Edinburgh, Edinburgh, UNITED KINGDOM.

11:30 607. Fluorescent microparticles fabrication through chemical coating of O/W emulsion droplets with a thin metallic fi lm. J. FATTACCIOLI; Ecole Normale Supérieure, Paris, FRANCE.

172 173 11:10 607a. Transfer Printed Monolayer Latex Environmental Science 7 Particle Template Assisted Fabrication of Gold Micro/Nano Wires Via Evaporation Wednesday, June 25, 2014, 9:50 AM - 12:10 PM Lithography. S. Lone,1 I. U. Vakarelski,1 Houston Golkin B.Chew2 & S. T. Thoroddsen1,1Division Daniel Strongin, Howard Fairbrother of Physical Sciences and Engineering, Organizers: B. Kim King Abdullah University of Science Presider: &Technology (KAUST), Thuwal, Saudi Arabia. The interfacial mechanism of solvent 2Advanced Nanofabrication Imaging and 9:50 608. extraction of rare earth metal ions. Characterization, King Abdullah University M. ; Physics, University of Illinois at of Science & Technology (KAUST), Thuwal, Schlossman Chicago, Chicago, IL. Saudi Arabia..

10:10 609. Exsolved metal catalysts from perovskite host lattices. T. Oh, R. J. Gorte, J. M. Vohs; University of Pennsylvania, Philadelphia, PA.

10:30 610. Role of pore-size in desalination via capacitive deionization: Grand Canonical Monte Carlo simulations. P. Taboada- Serrano1, C. Hou2, X. Li3; 1Chemical and Biomedical Engineering and Microsystems Ph.D. Program, Rochester Institute of Technology, Rochester, NY, 2Graduate Institute of Environmental Engineering, National Taiwan University, Taipei, TAIWAN, 3Microsystems Engineering Ph.D. Program, Rochester Institute of Technology, Rochester, NY.

10:50 611. Adhesion of Dust Particles to Common Indoor Surfaces in Air-Conditioned Environment. C. C. Tan1, S. Gao2, B. Wee3, A. Asa-Awuku4, B. R. Thio1; 1Engineering Product Development, Singapore University of Technology and Design, Singapore, SINGAPORE, 2Center for Environmental Research and Technology, University of California - Riverside, Riverside, CA, 3Chemistry, University Malaysia Sarawak, Kuching, MALAYSIA, 4Chemical and Environmental Engineering, University of California - Riverside, Riverside, CA.

174 175 11:10 612. Effect of dispersant on oil droplet size 1 2 2 General Papers 7: distribution. F. J. Guzman , S. Yi , L. Zhao , Polymers and Scattering I M. C. Boufadel2; 1Chemical Engineering, New Jersey Institute of Technology, Newark, Wednesday, June 25, 2014, 9:50 AM - 12:10 PM NJ, 2Civil and Environmental Engineering, Towne Heilmeier New Jersey Institute of Technology, Newark, NJ. Organizers: Joelle Frechette, Mike Bevan Presider: J. Schneider 11:30 613. Inhibition of interfacial gas hydrate growth in the presence of nanoparticles. S. 9:50 614. Spatio-temporal structure of fi ller Baek1, J. F. Morris2,3, 3,1; 1Chemical nanoparticles in styrene-butadiene rubber. J. W. Lee 1 2 1 & Biomolecular Engineering, KAIST, Daejeon, Y. Shinohara , H. Kishimoto , Y. Amemiya ; 1 KOREA, REPUBLIC OF, 2Levich Institute, Department of Advanced Materials Science, The City College of New York, New York, NY, The University of Tokyo, Kashiwa, JAPAN, 2 3Chemical Engineering, The City College of Sumitomo Rubber Industries Ltd., Kobe, New York, New York, NY. JAPAN.

10:10 615. Simple preparation of polyelectrolyte complex beads for the long-term release of small molecules. U. K. de Silva, B. Weik, Y. Lapitsky; Chemical and Environmental Engineering, University of Toledo, Toledo, OH.

10:30 616. Equilibrium swelling of polyelectrolyte soft-contact-lens-material hydrogels. T. J. Dursch1, F. Nguyen1, T. Sells1, J. M. Prausnitz1, C. J. Radke1,2; 1Chemical and Biomolecular Engineering, University of California Berkeley, Berkeley, CA, 2Vision Science Group, University of California Berkeley, Berkeley, CA.

10:50 617. Scattering function of star polymer with excluded volume effect. X. Li1, L. Porcar2, Y. Liu3, C. Do1, G. S. Smith1, W. Chen1; 1Oak Ridge National Laboratory, Oak Ridge, TN, 2Institut Laue-Langevin, Greenoble, FRANCE, 3University of Delaware, Newark, DE.

11:10 618. The effect of PEO99-PPO65-PEO99 block copolymer on association/dissociation transitions of DNA-coated colloids. M. Song, J. Mittal, M. A. Snyder; Lehigh University, Bethlehem, PA.

11:30 619 Designed self-assembly kinetics to engineer the structural, mechanical and dielectric properties of fi brillar conjugated polymer organogels. G. M. Newbloom1, P. de la Iglesia1, K. M. Weigandt2, L. D. Pozzo1; 1Chemical Engineering, University of Washington, Seattle, WA, 2Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, MD.

176 177 Glasses/Jamming 7: Microfl uidics: Particle Synthesis Order and Disorder Wednesday, June 25, 2014, 9:50 AM - 12:10 PM Wednesday, June 25, 2014, 9:50 AM - 12:10 PM DRL A5 Skirkanich Berger Organizers: Paulo Arratia, Kevin Turner Organizers: Rob Riggleman, Andrea Liu, Eric Weeks Presider: P. E. Arratia Presider: P. Charbonneau 9:50 626. Keynote Lecture: Reverse 9:50 620. Between order and disorder: Mechanical engineering of natural soft matter: Devices extremes of a solid. C. P. Goodrich1, A. J. based on hydrogel microfl uidics and ionic Liu1, S. R. Nagel2; 1Physics and Astronomy, electronics. O. D. Velev; Chemical and University of Pennsylvania, Philadelphia, PA, Biomolecular Engineering, North Carolina 2The James Franck Institute, University of State University, Raleigh, NC. Chicago, Chicago, IL. 10:30 627. Synthesis of Three-Dimensional 10:10 621. Keynote Lecture: Flow of colloidal Magnetic Particles Based on Two- glasses. P. Schall; Institute of Physics, Dimensional Microfl uidic Channels. N. University of Amsterdam, Amsterdam, Hakimi1, S. S. Tsai2, C. Cheng1, D. Hwang1; NETHERLANDS. 1Chemical Engineering, Ryerson University, Toronto, ON, CANADA, 2Mechanical and Industrial Engineering, Ryerson University, 10:50 622. Understanding colloidal crystal nucleation and glass formation via exact Toronto, ON, CANADA. enumeration of small-N sphere packings. R. S. Hoy; Physics, University of South Florida, 10:50 628. Functional, monodisperse and Tampa, FL. acoustically programmable silicone gel particles for bioanalytical acoustofl uidics. 1,2 3 1 Microscopic and rheological roles of C. W. Shields, IV , K. A. Duval , D. Sun , 11:10 623. 1,2,3 1 disorder in a 2D glassy solid. , G. P. Lopez ; Biomedical Engineering, N. C. Keim 2 P. E. Arratia; Mechanical Engineering Duke University, Durham, NC, NSF and Applied Mechanics, University of Research Triangle Materials Research Pennsylvania, Philadelphia, PA. Science and Engineering Center, Durham, NC, 3Mechanical Engineering and Materials Science, Duke University, Durham, NC. 11:30 624. A new method for identifying defects in disordered solids. S. Wijtmans, L. Manning; Physics, Syracuse University, Syracuse, NY. 11:10 629. Single-step microfl uidic fabrication of soft microcapsules by interfacial polyelectrolyte 1 2 Robust Strength/Stiffness Correlation complexation. G. Kaufman , R. Boltyanskiy , 11:50 625. S. Nejati1, A. R. Thiam3, M. Loewenberg1, in Disordered Colloidal Micropillars. D. 2 1 1 1 2 2 2 E. Dufresne , C. O. Osuji ; Chemical Strickland , L. Zhang , Y. Huang , D. Lee , D. 2 1 1 Engineering, Yale, New Haven, CT, Physics, S. Gianola ; Department of Materials Science 3 & Engineering, University of Pennsylvania, Yale, New Haven, CT, Cell Biology, Yale, Philadelphia, PA, 2Department of Chemical New Haven, CT. and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA. 11:30 630. Physical and chemical measurements of nanoparticles using near fi eld optics. R. Hart, C. Earhart, B. Cordovez; Optofl uidics, Philadelphia, PA.

11:50 631. Simple Generation of Janus Particles Using Magnets. A. Lu1, D. DeVoe2, S. Raghavan1; 1Chemical and Biomolecular Engineering, University of Maryland, College Park, MD, 2Mechanical Engineering, University of Maryland, College Park, MD.

178 179 Molecular Self-Assembly 7 Particles in Interfaces, Fields Wednesday, June 25, 2014, 9:50 AM - 12:10 PM and Liquid Crystals 7 Cohen Terrace Wednesday, June 25, 2014, 9:50 AM - 12:10 PM Irvine Amado Organizers: Dan Hammer, Darrin Pochan Presider: K. Vargo Organizers: Tony Dinsmore, Chris Santangelo, Mohamed Gharbi 9:50 632. Self-assembly and structure in ternary Presider: A. D. Dinsmore water/alkane/surfactant mixtures with two 1 or three liquid phases. J. Siepmann , D. 9:50 637a. Void formation in experimental salt- Harwood1, A. Cortes-Morales1, P. Bai1, C. J. free dispersions of highly charged colloidal 2 1 Peters ; Department of Chemistry, University spheres. D. Gillespie; School of Chemistry, of Minnesota, Minneapolis, MN, 2Department University of Bristol, Bristol, UK. of Chemical Engineering, The Petroleum Institute, Abu Dhabi, UNITED ARAB 10:10 638. Ordered colloidal particle monolayers at EMIRATES. 1 1 liquid crystal interfaces. W. Wei , M. Lohr , M. Gharbi1, K. Stebe2, A. G. Yodh1; 1Department 10:10 633. Pressure Reentrant Assembly: Direct of Physics and Astronomy, University of Simulation of Volumes of Micellization. H. Pennsylvania, Philadelphia, PA, 2Department Ashbaugh; Chemical and Biomolecular of Chemical and Biomolecular Engineering, Engineering, Tulane University, New Orleans, University of Pennsylvania, Philadelphia, PA. LA. 10:30 639. Isotropic - nematic phase transition in 10:30 634. Molecular Dynamics Simulations of aqueous sepiolite clay rods. P. Woolston, Sodium Dodecyl Sulfate Micelles in Water J. van Duijneveldt; School of Chemistry, - the Effect of the Force Field. X. Tang1, University Of Bristol, Bristol, UNITED P. H. Koenig2, R. G. Larson1; 1Chemical KINGDOM. Engineering, University of Michigan, Ann Arbor, MI, 2Procter and Gamble, Cincinnati, 10:50 640. Anisotropic articles at the nematic/ OH. air interface: Elasto-capillary interactions. I. B. Liu1, M. A. Gharbi2, V. L. Ngo1, R. D. 10:50 635. A computational microscope: Coarse Kamien3, S. Yang4, K. J. Stebe1; 1Chemical Grained simulations of dense bicontinuous and Biomolecular Engineering, University of microemulsions systems. E. Negro1, R. Pennsylvania, Philadelphia, PA, 2Chemical Latsuzbaia1, A. De Vries2, G. J. Koper1; and Biomolecular Engineering, Physics 1Delft University of Technology, Delft, and Astronomy, Materials Science and NETHERLANDS, 2University of Groningen, Engineering, University of Pennsylvania, Groningen, NETHERLANDS. Philadelphia, PA, 3Physics and Astronomy, University of Pennsylvania, Philadelphia, 11:10 636. Probing Microstructural Organization Of PA, 4Materials Science and Engineering, Pharmaceutically Accepted Microemulsions. University of Pennsylvania, Philadelphia, PA. G. Sidhu, Jr.; SSBUICET, Panjab University, Chandigarh, Chamdigarh, INDIA. 11:10 641. Keynote Lecture: Templated Assembly of Colloids using Liquid 11:50 637. Sugar Amphiphiles: A New Family of Crystalline Droplets. D. Miller1, X. Wang1, Healthy Vegetable Oil Structuring Agents. G. J. Whitmer2, J. J. de Pablo2, N. L. Abbott1; John; Chemistry, the City College of New 1Chemical and Biological Engineering, York, New York, NY. University of Wisconsin-Madison, Madison, WI, 2Institute for Molecular Engineering, University of Chicago, Chicago, IL.

180 181 11:50 642. Elasto-capillary interactions between Rheology and Dynamics 7 solid spheres at smectic membranes. M. GHARBI1, R. Kamien1, S. Yang2, K. Stebe3; Wednesday, June 25, 2014, 9:50 AM - 12:10 PM 1Department of Physics and Astronomy, DRL A7 University of Pennsylvania, Philadelphia, Chinedum Osuji, Kelly Schultz PA, 2Department of Materials Science and Organizers: C. Osuji Engineering, University of Pennsylvania, Presider: Philadelphia, PA, 3Department of Chemical Dynamics of functionalized nanocarrier and Biomolecular Engineering, University of 9:50 643. binding to cell surface in the presence of Pennsylvania, Philadelphia, PA. hydrodynamic interactions studied using generalized Langevin equations and dynamical density functional theory. H. Y. Yu 1, H. Vitoshkin1, D. M. Eckmann2, P. S. Ayyaswamy3, R. Radhakrishnan1; 1Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Anesthesiology and Critical Care, University of Pennsylvania, Philadelphia, PA, 3Mechanical Engineering and Applied Mechanics, University of Pennsylvania, Philadelphia, PA.

10:10 644. Nuclear damage in constrained 3D-migration extends from the lamina to DNA breaks. J. Irianto, A. Athirasala, R. Diegmiller, J. Swift, D. E. Discher; School of Engineering and Material Science, University of Pennsylvania, Philadelphia, PA.

10:30 645. Microrheological characterization of cell-mediated degradation in the pericellular region during human mesenchymal stem cell migration. K. M. Schultz1, K. A. Kyburz2, K. S. Anseth2; 1Department of Chemical Engineering, Lehigh University, Bethlehem, PA, 2Department of Chemical and Biological Engineering, University of Colorado and the Howard Hughes Medical Institute, Boulder, CO.

10:50 646. Dynamics in Steady State in-Vitro Acto- Myosin Networks. Y. Roichman, A. Sonn- Segev, H. Diamant; Tel Aviv University, Tel Aviv, ISRAEL.

182 183 11:10 647. How dynamic clusters contribute Wetting and Adhesion 7: Dynamic to viscosity in lysozyme solutions. S. D. Wetting and Models Hudson1, P. Godfrin2, L. Procar3, P. Falus3, K. Hong4, N. J. Wagner2, Y. Liu2; 1Polymers and Wednesday, June 25, 2014, 9:50 AM - 12:10 PM Complex Fluids Group, NIST, Gaithersburg, Levine Wu and Chen MD, 2Chemical and Biomeloecular Engineering, U. Delaware, Newark, DE, 3ILL, Organizers: Shu Yang, Eric Dufresne Grenoble, FRANCE, 4Center For Nanophase Presider: E. Dufresne Materials Sciences, ORNL, Oak Ridge, TN. 9:50 650. Dynamic contact angles in liquid- 11:30 648. Stress localization, stiffening and liquid systems. A. Al-Shareef; Chemical & yielding in a model colloidal gel. J. Colombo1, Biochemical Engineering, Missouri University E. Del Gado2,1; 1ETH Zurich, Zurich, of Science and Technology, Rolla, MO. SWITZERLAND, 2Department of Physics, Georgetown University, Washington, DC. 10:10 651. Understanding of contact angle hysteresis beyond the single defect model. 1 1 1 2 Visualizing Buckling of Semifl exible P. Tong , Y. Wang , S. Guo , H. Chen ; 11:50 649. 1 Chains. J. Zhao, S. L. Biswal; Chemical and Department of Physics, Hong Kong Biomolecular Engineering, Rice University, University of Science and Technology, Hong 2 Houston, TX. Kong, HONG KONG, Department of Physics, National Central University, Jhongli, TAIWAN.

10:30 652. Electrostatically Driven Precursor Films. S. Mahmoudi, K. Varanasi; MIT, Cambridge, MA.

10:50 653. Effects of three-phase contact line on contact angle hysteresis and depinning force on micro-porous hydrophobic surfaces. Y. Jiang, M. A. Sarshar, W. Xu, C. Choi; Mechanical Engineering Department, Stevens Institute of Technology, Hoboken, NJ.

11:10 654. Dynamic wetting of hydrophobic polymers by aqueous surfactant and superspreader solutions. X. Wang1, L. Chen1, E. Bonaccurso1, J. Venzmer2; 1Center of Smart Interfaces, Darmstadt, GERMANY, 2Evonik Industries AG, Essen, GERMANY.

11:30 655. Dewetting dynamics of two-liquid systems: a micro-scale study. F. Lin1, L. He1,2, B. Primkulov1, Z. Xu1,3; 1Chemical and Materials Engineering, University of Alberta, Edmonton, AB, CANADA, 2School of Chemical Engineering and Technology, Tianjin University, Tianjin, CHINA, 3Institute of Nuclear and New Energy Technology,Tsinghua University, Beijing, CHINA.

184 185 11:50 656. Theoretical models for depinning Biocolloids 8 forces of evaporating droplets on pillared superhydrophobic surfaces. M. A. Sarshar, Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Y. Jiang, W. Xu, C. Choi; Mechanical Houston Ben Franklin Engineering Department, Stevens Institute of Dennis Discher, Michael Rubinstein Technology, Hoboken, NJ. Organizers: Presider: S. Mitragotri

1:30 657. Effect of drop diameter of microbial degradation. G. Juarez, R. Stocker; Civil and Environmental Engineering, MIT, Cambridge, MA.

1:50 658. Coupled effects of hydrodynamic and solution chemistry conditions on long-term nanoparticle transport and deposition in saturated porous media. S. Sasidharan1,2, S. Torkzaban1, S. A. Bradford3, P. J. Dillon1, P. G. Cook1,2; 1Land and water, CSIRO, Adelaide, South Australia, AUSTRALIA, 2Flinders University of South Australia, National Centre for Groundwater Research and Training, Adelaide, AUSTRALIA, 3ARS, Salinity Laboratory, USDA, Riverside, 92507, CA.

2:10 659. Environmental toxicological screening of gold nanoparticles designed for nanomedicine applications. P. C. Naha1, P. Chhour2, D. C. Cormode1; 1Radiology, University of Pennsylvania, Philadelphia, PA, 2Bioengineering, University of Pennsylvania, Philadelphia, PA.

186 187 Biointerfaces 8: Colloidal and Surface Forces 8: Bacterial Biointerfaces Dispersions Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Houston Class of ‘49 College Hall 200

Organizers: Ravi Radakrishnan, Tobias Baumgart Organizers: Eric Furst, Ray Dagastine Presider: D. Issadore Presider: J. Fagan

1:30 660. Studying Interactions of Bacteria 1:20 665. Dynamical crossover in soft colloids with Colloidal Crystals: Inhibiting Microbial below the overlap concentration. X. Li1, L. Colonization of Surfaces Using Colloidal E. Sanchez-Diaz1, B. Wu2, W. A. Hamilton1, Crystals. M. Kargar, A. Pruden, W. Ducker; L. Porcar3, P. Falus3, Y. Liu4, C. Do1, G. S. Virginia Tech, Blacksburg, VA. Smith1, T. Egami2, W. Chen1; 1Oak Ridge National Laboratory, Oak Ridge, TN, 1:50 661. Molecular uptake and membrane 2University of Tennessee, Knoxville, TN, transport in living bacteria: Real-time 3Institut Laue-Langevin, Greenoble, FRANCE, observations with optical transmission 4Department of Chemical Engineering, microscopy and second-harmonic light University of Delaware, Newark, DE. scattering. M. J. Wilhelm1, J. B. Sheffi eld2, G. Gonella1, Y. Wu1, C. Spahr1,3, B. Xu1, 1:50 666. Dynamics of hard and soft colloids J. Zeng4,5, M. Sharifi an, Gh.1, H. Dai1; confi ned between parallel walls. S. 1Department of Chemistry, Temple University, Yarlagadda, V. Breedveld; Chemical Philadelphia, PA, 2Department of Biology, Engineering, Georgia Institute of technology, Temple University, Philadelphia, PA, Atlanta, GA. 3Department of Biology, Eidgenössische Technische Hochschule (ETH) Zü rich, 2:10 667. Transitions of a hard-sphere colloidal Zü rich, SWEDEN, 4Department of Chemistry, crystal to colloidal crystals with attractive University of Pennsylvania, Philadelphia, PA, interactions. M. Gratale, Y. Xu, A. Yodh; 5Global Foundries, Sunnyvale, CA. Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA. 2:10 662. Impacts of the physiochemical charge- regulation effect on the growth of attached 2:30 668. Salt-induced aggregation of self- bacteria. H. Zhu, L. Albert, D. Brown; Civil preserving carbon dispersions. J. J. & Environmental Engineering, Lehigh McDermott1, I. D. Morrison1, P. M. Wright2, J. University, Bethlehem, PA. I. Emert2, D. A. Weitz3; 1School of Engineering and Applied Sciences, Harvard University, 2:30 663. Charge-regulated variation in pH Cambridge, MA, 2Infi neum USA LP, Linden, between two adhering surfaces and its ability NJ, 3Department of Physics and School of to affect bioenergetics of attached bacteria Engineering and Applied Sciences, Harvard under non-growth conditions. L. S. Albert, H. University, Cambridge, MA. Zhu, D. G. Brown; Civil and Environmental Engineering, Lehigh University, Bethlehem, 2:50 669. Phase behavior of microgel PA. suspensions. M. PELAEZ-FERNANDEZ1, A. SOUSLOV1, L. LYON2, P. GOLDBART1, 2:50 664. Oxygen diffusion impact on bacterial A. FERNANDEZ-NIEVES1; 1SCHOOL growth. D. Lalanne-Aulet1, A. Colin1, P. OF PHYSICS, GEORGIA INSTITUTE OF Guillot2, A. Piacentini1; 1UMR 5258 - Rhodia/ TECHNOLOGY, ATLANTA, GA, 2SCHOOL Laboratoire du Futur, Bordeaux, FRANCE, OF CHEMISTRY AND BIOCHEMISTRY, 2Solvay, Bordeaux, FRANCE. GEORGIA INSTITUTE OF TECHNOLOGY, ATLANTA, GA.

188 189 Directed Assembly 8: Emulsions, Bubbles and Foams 8: Field-Assisted Assembly II Particulate Shape Control in Emulsion Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Droplets Meyerson B1 Wednesday, June 25, 2014, 1:30 PM - 3:10 PM DRL A1 Organizers: Cherie Kagan, Vinothan Manoharan Presider: M. Zhang Organizers: Doug Durian, Jasna Brujic Presider: S. L. Biswal 1:30 670. Magneto-Responsive, Anisotropic, and Hybrid Microparticles of Variable Size 1:30 675. A SANS study of water in supercritical and Shape. S. Lee, S. Yang; Department of carbon dioxide microemulsions with spherical Materials Science and Engineering, University core-shell structures. C. Yan1, J. Eastoe1, C. of Pennsylvania, Philadelphia, PA. James1, S. Rogers2; 1Chemistry, University of Bristol, Bristol, UNITED KINGDOM, 2ISIS, 1:50 671. Measuring and modeling dipolar STFC, Rutherford Appleton Laboratory, interactions in rotating magnetic fi elds. Didcot, UNITED KINGDOM. A. Coughlan, M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins 1:50 676. Nanostructure engineering by template- University, Baltimore, MD. assisted self-assembly of nanoparticles inside evaporating droplets. X. Yang, Y. Sun; 2:10 672. Nacre-like composite materials produced Mechanical Engineering and Mechanics, via magnetically-controlled sol-gel phase Drexel University, Philadelphia, PA. separation. M. Furlan, M. Lattuada; Adorlphe Merkele Institute, University of Fribourg, 2:10 677. Effect of silica nanoparticle aggregate Marly, SWITZERLAND. state on the formation of Pickering emulsions and oil-mineral aggregates. M. Sender1, S. 2:30 673. Thin fi lm capacitor of silver-dielectric Fields1, A. Gupta2, G. D. Bothun1; 1Chemical core/shell nanoparticles with uniform metal Engineering, University of Rhode Island, nanoparticle distribution and controlled Kingston, RI, 2Texas A&M International spacing. X. Li, O. Niitsoo, A. Couzis; University, Laredo, TX. Chemical Engineering, The City College of New York, New York, NY. 2:30 678. Interfacial arrest and packing in nonspherical Pickering emulsion droplets. 2:50 674. Trapping properties of optical conveyors. P. Spicer1, Z. Wei1, T. Atherton2, C. Burke2; D. B. Ruffner, D. G. Grier; Physics, New York 1School of Chemical Engineering, UNSW University, New York, NY. Australia, Sydney, AUSTRALIA, 2Department of Physics and Astronomy, Tufts University, Medford, MA.

190 191 General Papers 8: Polymers A. Silvera Batista1, J. G. Clar2, S. Youn2, J. Bonzongo2, K. J. Ziegler3; 1Chemical and Scattering II Engineering, University of Michigan, Ann Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Arbor, MI, 2Environmental Engineering Towne Heilmeier Sciences, University of Florida, Gainesville, FL, 3Chemical Engineering, University of Organizers: Joelle Frechette, Mike Bevan Florida, Gainesville, FL. Presider: D. J. Beltran-Villegas

1:30 679. Understanding Colloidal Stability in Ionic Liquid [Bmim][BF4]. J. Gao1, R. S. Ndong1, M. B. Shifl ett2, N. J. Wagner1; 1Chemical & Biomolecular Engineering, University of Delaware, Newark, DE, 2Central Research and Development, DuPont Company, Wilmington, DE.

1:50 680. Multifunctional Rheology Modifi ers for Cosmetic Applications: Recent Trends. M. S. Vethamuthu1, E. DiAntonio2, V. Johnson3, H. Fares1, L. Foltis4; 1Skin Care, ASHLAND Specialty Ingredients, Bridgewater, NJ, 2Hair Care, ASHLAND Specialty Ingredients, Bridgewater, NJ, 3Materials Science, ASHLAND Specialty Ingredients, Bridgewater, NJ, 4Care, ASHLAND Specialty Ingredients, Bridgewater, NJ.

2:10 681. Understanding the role of solvents and ligand exchange agents on surface chemistry and electronic and photophysical properties of semiconductor nanocrystals. E. D. Goodwin1, B. T. Diroll1, C. H. de Ruijter2, C. R. Kagan3, C. B. Murray4; 1Chemistry, University of Pennsylvania, Philadelphia, PA, 2Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 3Electrical and Systems Engineering, Materials Science and Engineering, Chemistry, University of Pennsylvania, Philadelphia, PA, 4Chemistry, Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA.

2:30 682. Using NMR solvent relaxation to study Graphene, Graphene Oxide and Nanographite dispersions. D. Fairhurst1, T. Cosgrove2; 1XiGo Nanotools Inc, Bethlehem, PA, 2Department of Physical Chemistry, University of Bristol, Bristol, UNITED KINGDOM.

2:50 683. Interactive forces between sodium dodecyl sulfate-suspended single-walled carbon nanotubes and agarose gels. C.

192 193 Glasses/Jamming 8: Colloids Microfl uidics: Multiphase Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Interfacial Phenomena Skirkanich Berger Wednesday, June 25, 2014, 1:30 PM - 3:10 PM DRL A5 Organizers: Rob Riggleman, Andrea Liu, Eric Weeks Presider: Z. Fakhraai Organizers: Paulo Arratia, Kevin Turner Presider: A. Kotula 1:30 684. Using ultrasound method for the evaluation of dispersibility and stability of clay 1:50 688. Overfl ow cascades in open microfl uidic colloids in aqueous suspensions. S. Ali; Soft devices. I. Jacobi, J. S. Wexler, H. A. Stone; Condensed Matter Group, Raman Research Mechanical and Aerospace Engineering, Institute, Bangalore, INDIA. Princeton University, Princeton, NJ.

1:50 685. Glassy states in a charged colloidal 2:10 689. On the coupled effects of local slip length system. B. Ruzicka; CNR-IPCF and Dip. di and curvature at liquid-gas interfaces on the Fisica, Sapienza Universita’, ROMA, ITALY. effective slip length over superhydrophobic surfaces. W. Zheng1, L. Wang2, Y. Jin1; 1Plant 2:10 686. Attractive Semifl exible Fiberlike Colloidal and Soil Sciences, University of Delaware, Particles from Bacterial Cellulose Microfi brils. Newark, DE, 2Mechanical engineering, A. Kuijk1, R. Koppert1, P. Versluis1, G. van University of Delaware, Newark, DE. Dalen1, C. Remijn1, J. Hazekamp1, J. Nijsse1, 1 1,2 1 S. Veen , K. P. Velikov ; Unilever R&D 2:30 690. General principles of ternary phase Vlaardingen, Vlaardingen, NETHERLANDS, separation into multilayered emulsions 2 Soft Condensed Matter, Debye Institute for facilitate wide applications. M. F. Haase, J. Nanomaterials Science, Utrecht University, Brujic; Physics, New York University, New Utrecht, NETHERLANDS. York, NY.

2:30 687. Keynote Lecture: Flow defects and 2:50 691. Anisotropic slip over surfaces with instabilities in jammed packings. A. Liu; sinusoidal roughness. L. Guo1, M. O. Department of Physics and Astronomy, Robbins2; 1Department of Mechanical University of Pennsylvania, Philadelphia, PA. Engineering, Johns Hopkins University, Baltimore, MD, 2Department of Physics and Astronomy, Johns Hopkins University, Baltimore, MD.

194 195 Molecular Self-Assembly 8 Particles in Interfaces, Fields and Liquid Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Crystals 8 Cohen Terrace Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Irvine Amado Organizers: Dan Hammer, Darrin Pochan Presider: K. Vargo Organizers: Tony Dinsmore, Chris Santangelo, Mohamed Gharbi 1:30 692. Metal chelated antioxidants create stable Presider: J. Jeong nanoparticles with applications in catalysis, PET imaging, and therapeutic iron delivery. 1:30 695. Phase Behavior of Experimentally R. K. Prud’homme; Chem and Biol Engr, Realizable Polyhedral Colloidal Particles. Princeton University, Princeton, NJ. A. P. Gantapara1, J. de Graaf2, W. van der Stam3, G. Soligno4, C. de Mello Donega5, 1:50 693. Covalent coupling of silicon carbide R. van Roij4, M. Dijkstra1; 1Physics, whiskers to carbon fi bers for improved Soft Condensed Matter Group, Utrecht, carbon/epoxy composites. E. Landis, NETHERLANDS, 2Physics, Institute for Y. Chen, A. Tabakovic, B. Babcox, C. E. Computational Physics, Stuttgart, GERMANY, Bakis, J. H. Adair; The Pennsylvania State 3Physics, Debye Institute for Nanomaterials University, State College, PA. Science, Utrecht, NETHERLANDS, 4Physics, Institute for Theoretical Physics, 2:10 694. The Role of Interfacial Interactions in Utrecht, NETHERLANDS, 5Physics, the Development of Protein Therapeutics. J. Condensed Matter and Interfaces, Utrecht, Li1, S. Zheng1, S. Pinnamaneni1, Y. Quan1, NETHERLANDS. A. Jaiswal2, X. Zhang3, F. Anderson2; 1Drug Product Science & Technology, Bristol-Myers 1:50 696. Controlling size and homogeneity Squibb, New Brunswick, NJ, 2Biolin Scientifi c of thiolate-protected sub-5nm silver Inc., Linthicum Heights, MD, 3Drug Product nanoparticles by modifi ed digestive ripening Science & Technology, Biolin Scientifi c Inc., process. Y. Liu, Y. J. Tong; Department Linthicum Heights, MD. of Chemistry, Georgetown University, Washington, DC.

2:10 697. Control of defect lines over long length scale with novel 3D structure. Y. Luo1, F. Serra1,2, M. A. Gharbi1,2, R. D. Kamien2, K. J. Stebe1; 1Department of Chemical and Biomolecular Engineering, University of Pennsylvania, Philadelphia, PA, 2Department of Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

2:30 698. Thermal sensitive discotic liquid crystals. Z. Cheng1,2, X. Wang1, A. Mejia1, H. Li2; 1TAMU, College Station, TX, 2Guangdong Provincial Key Laboratory of Functional Soft Matter, Guangdong University of Technology, Guangzhou, CHINA.

2:50 699. Toroidal droplets. E. Pairam, A. Fragkopoulos, J. Vallamkondu, P. Ellis, K. Nayani, A. Fernandez-Nieves; Physics, Georgia Tech, Atlanta, GA.

196 197 Wetting and Adhesion 8: 2:50 704. Infl uence of molecular solvation on the conformation of soft colloid. X. Li1, L. Wettability in Complex Soft Matter Porcar2, L. E. Sanchez-Diaz1, C. Do1, Y. Wednesday, June 25, 2014, 1:30 PM - 3:10 PM Liu3, T. Kim4, G. S. Smith1, W. A. Hamilton1, Levine Wu and Chen K. Hong1, W. Chen1; 1Oak Ridge National Laboratory, Oak Ridge, TN, 2Institut Laue- Organizers: Shu Yang, Eric Dufresne Langevin, Greenoble, FRANCE, 3University Presider: J. Singer of Delaware, Newark, DE, 4Research Reactor Utilization Department, Korea Atomic Energy 1:30 700. Direct write thermocapillary dewetting Research Institute, Daejeon, KOREA, of polymer thin fi lms by a laser-induced REPUBLIC OF. thermal gradient. J. P. Singer1, P. Lin1, S. E. Kooi2, L. C. Kimerling1, J. Michel3, E. L. Thomas4; 1Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA, 2Institute for Soldier Nanotechnologies, Massachusetts Institute of Technology, Cambridge, MA, 3Materials Processing Center, Massachusetts Institute of Technology, Cambridge, MA, 4Department of Mechanical Engineering and Materials Science, Rice University, Houston, TX.

1:50 701. Long time persistence of drops atop miscible simple or complex fl uid subphases. A. Z. Stetten1, T. E. Corcoran2, S. Garoff1, T. Przybycien3, R. D. Tilton3; 1Physics, Carnegie Mellon University, Pittsburgh, PA, 2Medicine, University of Pittsburgh, Pittsburgh, PA, 3Chemical Engineering and Biomedical Engineering, Carnegie Mellon University, Pittsburgh, PA.

2:10 702. Effect of electrostatic interactions and nanostructures on disjoining pressure of water on alumina surfaces. H. Hu, Y. Sun; Department of Mechanical Engineering and Mechanics, Drexel University, Philadelphia, PA.

2:30 703. Wettability alternation of solids using nanofl uids. S. Lim, H. Horiuchi, A. D. Nikolov, D. T. Wasan; Chemical Engineering, Illinois Institute of Technology, Chicago, IL.

198 199 Biointerfaces 9: Colloidal and Surface Forces 9: Modeling Amphiphile Monolayers Wednesday, June 25, 2014, 3:40 PM - 5:20 PM Wednesday, June 25, 2014, 3:40 PM - 5:20 PM College Hall 200 Houston Class of ‘49 Organizers: Eric Furst, Ray Dagastine Organizers: Ravi Radakrishnan, Tobias Baumgart Presider: J. J. McDermott Presider: J. Swift 3:40 709. Molecular simulations of polymer-water 1 2 Effect of Lipid Monolayer Composition interfaces in latex paint. Z. Li , F. Yuan , 3:40 705. 2 1 1 on Fluorocarbon Microbubble Condensation. R. G. Larson , K. Fichthorn , S. T. Milner ; 1 M. A. Borden, P. Mountford; Mechanical Department of Chemical Engineering, Engineering, University of Colorado, Boulder, Pennsylvania State University, State College, CO. PA, 2Department of Chemical Engineering, University of Michigan, Ann Arbor, MI. 4:00 706. Studying lipid/protein interaction using phospholipid monolayers. M. Mirheydari1, 4:00 710. Numerical Calculation of Interaction S. Rathnayke2, S. Cocklin3, E. Mann1, E. Force of 2-D Paramagnetic Particle Kooijman2; 1Physics, Kent State University, System. D. Du1, F. Toffoletto2, S. L. Biswal1; Kent, OH, 2BSCI, Kent State University, 1Department of Chemical Engineering, Rice Kent, OH, 3Department of Biochemistry and University, Houston, TX, 2Department of Molecular Biology, Drexel University College Physics and Astronomy, Rice University, of Medicine, Philadelphia, PA. Houston, TX.

4:20 707. Effect of functional group on the 4:20 711. Polarizable ion and colloid distributions monolayer structures of biodegradable near dielectric interfaces: A unifi ed treatment quaternary ammonium surfactants. S. Ye1, of thermal and quantum dispersion (van A. Ge1, H. Wu1, Y. Tong1, T. Nishida1, M. der Waals) forces. J. Palmeri1, M. Manghi2; Osawa1, K. Suzuki2, T. Sakai3; 1Catalysis 1Departement Physique Theorique, Research Center, Hokkaido University, Laboratoire Charles Coulomb, CNRS- Sapporo, JAPAN, 2R&D - Fabric & Home Universite Montpellier 2, Montpellier Cedex Care Research, Kao Corporation, Wakayama, 5, FRANCE, 2Laboratoire de Physique JAPAN, 3R&D - Eco-Innovation Research, Theorique, IRSAMC UMR CNRS-UPS 5152 Kao Corporation, Wakayama, JAPAN. Universite Toulouse, Toulouse, FRANCE.

4:40 708. Linear and Nonlinear Microrheology of 4:40 712. Micro-biophysical processes shape Lysozyme Layers Forming at the Air-Water bacterial distribution and dispersion on Interface. D. B. Allan1, D. M. Firester1, produce rough surfaces. G. Wang, V. S. P. Cardinali1, V. Allard1, D. H. Reich1, Lazouskaya, T. Sun, W. Zheng, Y. Jin; K. J. Stebe2, R. L. Leheny1; 1Physics and Department of Plant and Soil Sciences, Astronomy, Johns Hopkins University, University of Delaware, Newark, DE. Baltimore, MD, 2Department of Chemical and Biomolecular Engineering, University of 5:00 713. Investigating the effects of membrane Pennsylvania, Philadelphia, PA. deformability on artifi cial capsule adhesion to the endothelium. H. Balsara1, R. Banton2, C. Eggleton1; 1Department of Mechanical Engineering, University of Maryland, Baltimore County, Baltimore, MD, 2U.S. Army Research Laboratory, Aberdeen Proving Ground, Aberdeen, MD.

200 201 Directed Assembly 9: 5:00 718. Size-dependent non-space fi lling atomic Field-Assisted Assembly III packing in metallic nanoparticles. V. Doan- Nguyen1, S. A. Kimber2, D. Pontoni2, D. Wednesday, June 25, 2014, 3:40 PM - 5:20 PM C. Reifsnyder3, B. T. Diroll3, M. Miglierini4, Meyerson B1 X. Yang5, C. B. Murray1, S. J. Billinge5; 1Materials Science and Engineering, Organizers: Cherie Kagan, Vinothan Manoharan University of Pennsylvania, Philadelphia, PA, Presider: Y. Shin 2European Synchrotron Radiation Facility, Grenoble, FRANCE, 3Chemistry, University 3:40 714. Kinetic control and switching of colloidal of Pennsylvania, Philadelphia, PA, 4Electrical phase transitions by direct current electric Engineering and Information Technology, fi eld-assisted assembly. J. A. Ferrar, M. J. Slovak University of Technology, Bratislava, Solomon; Chemical Engineering, University of SLOVAKIA, 5Applied Physics and Applied Michigan, Ann Arbor, MI. Mathematics, Columbia University, New York, NY. 4:00 715. Ising Lattices of Asymmetric Colloidal Dimers under Electric Fields. f. ma1, s. wang1, h. zhao2, D. T. Wu3, N. Wu1; 1chemical and biological engineerning, colorado school of mines, golden, CO, 2Department of Mechanical Engineering, University of Nevada, Las Vegas, Las Vegas, NV, 3chemistry and geochemistry, colorado school of mines, golden, CO.

4:20 716. Anisotropic hypersonic phonon propagation in fi lms of aligned ellipsoids. P. J. Beltramo1, D. Schneider2, G. Fytas2,3, E. M. Furst1; 1Department of Chemical and Biomolecular Engineering, University of Delaware, Newark, DE, 2Max Planck Institute for Polymer Research, Mainz, GERMANY, 3Department of Materials Science, University of Crete and IESL-FORTH, Heraklion, GREECE.

4:40 717. Continuous Growth of Defect-Free Colloidal Crystals via Feedback Control. Y. YANG, M. Bevan; Chemical and Biomolecular Engineering, Johns Hopkins University, baltimore, MD.

202 203 Emulsions, Bubbles and Foams 9: General Papers 9: Emulsion Synthesis Approaches Electrochemistry and Ionic Liquids Wednesday, June 25, 2014, 3:40 PM - 5:20 PM Wednesday, June 25, 2014, 3:40 PM - 5:20 PM DRL A1 Towne Heilmeier

Organizers: Doug Durian, Jasna Brujic Organizers: Joelle Frechette, Mike Bevan Presider: K. Feitosa Presider: D. Lee

3:40 719. COLLOID SURFACTANT AND 3:40 723. Ionothermal stability of mesoporous EMUSLION STABILITY. S. Razavi, J. silica. J. H. Prosser, D. Lee; Chemical & Ferdaous, I. Kretzschmar; Department of Biomolecular Engineering, University of Chemical Engineering, City College of New Pennsylvania, Philadelphia, PA. York, New York, NY. 4:00 724. Activity enhancement of oxygen 4:00 720. Characterization of sub-micron reduction reaction by sub-monolayer sulfi de dispersions of high Mw polyolefi ns derived adsorption on Pt nanoparticles. Y. Wang, Y. J. from a HIPE at high temperatures and Tong*; Department of Chemistry, Georgetown pressures. D. Dermody, R. Lundgard, D. University, Washtington, DC. Malotky, M. Kalinowski, T. Young; Formulation Science, The Dow Chemical Company, 4:20 725. An enzyme-free hydrogen peroxide Midland, MI. sensor from a zinc oxide multi-walled carbon nanotube hybrid. M. B. Wayu1, S. C. Das1, R. 4:20 721. paper withdrawn. T. Spidle2, A. K. Wanekaya2, C. C. Chusuei1; 1Chemistry, Middle Tennessee State 4:40 722. Generation of complex emulsion induced University, Murfreesboro, TN, 2Chemistry, by phase separation on the micromold. J. Missouri State University, Springfi eld, MO. Nam, C. Choi, S. Kang, B. Lee, C. Lee; Chemical Engineering, Chungnam National 4:40 726. Radio frequency magnetic permeability University, Daejeon, KOREA, REPUBLIC OF. of ferrite nanocrystals. H. Yun1, D. Li1, X. Liu2, T. Paik1, D. Palanisamy2, J. Kim3, J. Chen2, W. D. Vogel4, A. J. Viescas4, G. C. Papaefthymiou4, J. M. Kikkawa5, M. G. Allen3, C. B. Murray1,2; 1Chemistry, University of Pennsylvania, Philadelphia, PA, 2Materials Science and Engineering, University of Pennsylvania, Philadelphia, PA, 3Electrical and Systems Engineering, University of Pennsylvania, Philadelphia, PA, 4Physics, Villanova University, Villanova, PA, 5Physics and Astronomy, University of Pennsylvania, Philadelphia, PA.

5:00 727. Fluid-driven synthesis of sheets from modifi ed cellulose and their assembly into naturally hydrophobic aerogel. S. A. Ahmed1, S. Roh1, S. D. Stoyanov2, O. D. Velev1; 1Chemical & Biomolecular Engineering, North Carolina State University, Raleigh, NC, 2Laboratory of Physical Chemistry and Colloid Science, Wageningen University, Wageningen, NETHERLANDS.

204 205 Abbo , N. L...... 641 Arra a, P. E...... 56, 341, Abdulbaki, M...... 87 ...... 504, 507, 623 Abtahi, S...... 40 Arumugam, S...... 18 Acter, S...... 272 Arya, C...... 510 Adair, B...... 246 Asa-Awuku, A...... 611 Adair, J...... 246, 281 Ashbaugh, H...... 593, 633 Adair, J. H...... 15, 276, Ashkar, R...... 87, 351 ...... 352, 693 Athas, J. C...... 536, 601 Adler, D...... 375 Atherton, T...... 678 Adroher-Benítez, I...... 102 Athirasala, A...... 644 Afsari, S...... 142 Audoly, B...... 500 Agarwal, R...... 390 Audus, D...... 397 Agbangla, G...... 498 Audus, D. J...... 499 Ahmed, N. K...... 289, 292 Ayee, M. A...... 587 Ahmed, S. A...... 727 Ayyaswamy, P. S...... 448, Akhter, M...... 512 ...... 580, 643 Akpa, B. S...... 587 Babaee, Y...... 194 Alam, M. A...... 168 Babaye Khorasani, F...... 545 Albert, L...... 662 Babcox, B...... 15, 281, 693 Albert, L. S...... 663 Bacchin, P...... 498 Ali, S...... 684 Badami, J. V...... 441 Allan, D. B...... 445, 708 Badre, C...... 141 Allard, V...... 708 Bae, W...... 321 Allcock, H...... 512 Baek, S...... 613 Allcock, H. R...... 598 Bagheri, M...... 16 Allen, B...... 549 Bai, G...... 521 Allen, M. G...... 726 Bai, P...... 632 Author Index Al-Rekabi, Z...... 16 Bailey, D...... 43 Alsayed, A...... 141 Bakis, C. E...... 693 Alsayed, A. M...... 365 Balasuriya, T...... 196 Al-Shareef, A...... 650 Balavi, H...... 82 Al-Zaki, A...... 598 Ballauff , M...... 495 Amann, C...... 154 Balsara, H...... 713 Amemiya, Y...... 614 Banton, R...... 713 Ampunan, V...... 542 Bao, H...... 418 Anand, S...... 223 Barbastathis, G...... 89 Andelman, D...... 239 Barros, M...... 586 Andersen, M. B...... 183 Bartenstein, J. E...... 591 Anderson, A. J...... 539 Bartholomew, F. R...... 566 Anderson, F...... 694 Bartolo, D...... 6 Anderson, J...... 290 Basavaraj, M...... 73, 189 Angelini, T...... 585 Basavaraj, M. G...... 71, Angilè, F. E...... 235 ...... 76, 174 Angiole -Uber , S...... 263 Baskaran, A...... 4 Anna, S...... 38, 57 Basu, A...... 56 Anna, S. L...... 62, 63, Bau, H. H...... 58, 179 ...... 260, 429, 463 Bauer, J. L...... 525 Anseth, K. S...... 645 Baumgart, T...... 228, 250, Antonny, B...... 376 ...... 251, 303, 447 Antozewski, S...... 180 Beasley, M. S...... 310 Araujo, N...... 146 Beavn, M. A...... 596 Argento, C...... 311 Beddoes, C. M...... 354 Arkles, B...... 94 Beesabathuni, S. N. 37, 338 Armes, S. P...... 207, 392 Behrens, S. H...... 100, ...... 119, 474

207 Bell, M. S...... 159 Bo o, L...... 486 Cerbino, R...... 570 Choi, S...... 280, 335 Beller, D. A...... 416 Boufadel, M. C...... 612 Cerkez, E. B...... 193 Choi, S. Q...... 173 Bellini, T...... 570 Bouwer, E. J...... 382 Chaikin, P...... 30, 145, Chome e, C...... 217 Beltramo, P. J...... 716 Bowick, M...... 145 ...... 161, 561 Chong, H...... 14 Beltran-Villegas, D...... 576 Brader, J...... 154 Chaikin, P. M...... 21 Chorny, M...... 442 Beltran-Villegas, D. J...... 81 Bradford, S. A...... 658 Chakrabar , A...... 485, 503 Chou, J...... 58 Benardo, B...... 248 Bradley, R...... 358 Chan, D...... 175, 592 Chrisman, J. D...... 91 Bengaluru Subramanyam, S. Bradley, R. P...... 558 Chang, K...... 228 Christ Doss Pushpam, S...... 226 Bradshaw, A...... 579 Chang, S...... 319 ...... 73 Benson, B. R...... 375 Brady, J. F...... 154 Chang, Y.-W...... 585 Chris an, D...... 579 Ben Zion, M...... 561 Brandner, B. D...... 176, 432 Charbonneau, P. ...478, 523 Chung, E...... 542 Berger, B...... 196 Breedveld, V...... 666 Chatain, D...... 429 Chung, J.-H...... 338 Beris, A. N...... 568 Bricard, A...... 6 Chaudhuri, M...... 133 Church, J...... 320 Berry, N. E...... 599 Briscoe, W. H...... 22, 354, Chaudhury, M. K. ..485, 503 Chusuei, C. C...... 725 Berthier, L...... 202, 203 ...... 367, 556, 588, 591 Chavez, L. A...... 17 Cicuta, P...... 346 Bertrand, C. E...... 79 Bri , D. W. ....309, 539, 583 Cheheltani, R...... 512, 598 Claesson, P. M...... 176, 572 Bertrand, M...... 152 Brown, A. C...... 515 Chen, B. G...... 477 ...... 591, 594 Bevan, M...... 9, 112, 167, Brown, A. L...... 511 Chen, D. T...... 98 Clar, J. G...... 683 ...... 213, 277, 460, 671, 717 Brown, D...... 662 Chen, D...... 75 Clarke, N...... 255 Bevan, M. A...... 41 Brown, D. G...... 663 Chen, E. R...... 288, 292 Clegg, P...... 378 Beysens, D...... 223 Brown, E...... 549 Chen, H.-Y...... 651 Clegg, P. S...... 602 Bhandari, N...... 193 Brown, Z. J...... 262 Chen, J. P...... 130, 195, 540 Clemmer, J. T...... 53 Bhar , B...... 164, 177, Browne, C...... 364 Chen, J...... 726 Climent, E...... 498 ...... 264, 526 Bruce, K. L...... 100 Chen, K...... 379, 396, 411 Close, T...... 530 Bier, M...... 70 Brugarolas, T...... 58 Chen, L...... 408, 654 Cocklin, S...... 706 Bihr, T...... 418 Brujic, J...... 30, 690 Chen, M...... 305 Cohen, R. E...... 89 Billinge, S. J...... 718 Bruot, N...... 346 Chen, P...... 212 Colin, A...... 664 Billon, L...... 370 Bugner, D...... 176 Chen, R...... 299 Collings, P. J...... 147 Binh, C...... 383 Buie, C. R...... 461 Chen, S...... 440 Colombo, J...... 648 Bishop, K. J...... 150, 402 Burke, C...... 678 Chen, W.-R...... 215, 361, Colón-Meléndez, L...... 81 Biswal, S. L...... 191, Burton, G. L...... 427 ...... 617, 665, 704 Composto, R. J...... 253, 255 ...... 649, 710 Buscaglia, M...... 570 Chen, Y...... 693 Conrad, J...... 241, 545 Biswas, P...... 192 Bushman, Z...... 352 Chen, Z...... 228 Cook, P. G...... 658 Bi er, J. L...... 41 Butler, P...... 87, 351 Cheng, C.-H...... 627 Cook, W...... 176 Black, K. A...... 10 Butler, P. J...... 276 Cheng, K...... 293 Cooley, B...... 340 Blair, D. L...... 427 Bu , H...... 433 Cheng, S...... 65, 502 Corcoran, T. E...... 49, 232, Blanco, E...... 187, 490 Bu , H.-J...... 51, 205 Cheng, X...... 551 ...... 543, 701 Bleier, B. J...... 260 Bu noni, I...... 423 Cheng, Z...... 325, 698 Córdova-Figueroa, U. M...... Bocquet, L...... 163 Buxboim, A...... 444 Chernoff , Y. O...... 100 ...... 505 Boehm, S. J...... 273 Cacciuto, A...... 263, 357 Chernyshova, I...... 389 Cordovez, B...... 630 Boesze-Ba aglia, K...... 515 Caggioni, M...... 37 Chew, B...... 607a Cormode, D. C...... 659 Bohling, J...... 18 Cai, J...... 348, 552, 562 Chhour, P...... 248, 442, 509, Cormode, D. P...... 248, 442, Bolin neanu, D. S...... 483 Calabrese, M...... 85, 327 ...... 512, 598, 659 ...... 509, 511, 512, 598 Bolton, C. G...... 387 Campbell, A. I...... 438 Chiang, T.-Y...... 50 Cortes-Morales, A...... 632 Boltyanskiy, R...... 36, 629 Cantor, R. S...... 514 Chiappisi, L...... 553 Cor , D. S...... 388 Boluk, Y...... 82 Caporizzo, M...... 253 Chieco, A. T...... 125 Cor , D...... 521 Bommarius, A. S...... 100 Capraco a, S...... 231 Chilko , A...... 68 Cosgrove, T...... 408, 682 Bonaccurso, E...... 654 Capraro, B. R...... 228 Chirsan, A. M...... 150 Coughlan, A...... 671 Bonzongo, J.-C...... 683 Cardinali, S. P...... 708 Cho, J...... 280, 335 Couzis, A...... 324, 529, 673 Borden, M. A...... 374, 537, Cardoen, G...... 475 Cho, Y...... 450 Coyne, T...... 180 ...... 581, 705 Cargnello, M...... 313 Choe, H...... 431 Crassous, J. J...... 181 Borguet, E...... 142, 484 Carpick, R. W...... 200 Choi, C.-H...... 60, 158, Cremer, P...... 528 Borhan, A...... 159 Case, C. P...... 354 ...... 653, 656, 722 Crespy, D...... 205 Borkovec, M...... 282, 452 Cates, M. E...... 2 Choi, H...... 89 Crocker, J. C...... 32, 113, Bothun, G. D...... 26, 677 Caussin, J.-B...... 6 Choi, J...... 350 ...... 117, 398, 564

208 209 Crut, A...... 217 Di, X...... 426 Duncan, G...... 9, 167 Feitosa, K...... 34 Cubuk, E...... 52 Diamant, H...... 646 Duncan, G. A...... 41 Feng, G...... 551 Cui, D...... 229 DiAntonio, E...... 680 Dunér, G...... 209 Feng, L...... 30 Cui, J...... 88, 531 Dias, C...... 146 Dunn, C...... 520 Feng, X...... 527 Cur s, J. E...... 165 Dia a, J...... 453 Durian, D...... 52 Ferdaous, J...... 719 Cwalina, C...... 548 Dick, S...... 16 Durian, D. J...... 56, 125 Fernandez-Nieves, A. ...317, Dagas ne, R...... 24, 175, Diegmiller, R...... 644 du Roure, O...... 84 ...... 318, 344, 431, ...... 196, 364, 451 Dietrich, S...... 70 Dursch, T. J...... 616 ...... 585, 669, 699 Dagas ne, R. R...... 387, 592 Diget, J. S...... 591 Duval, K. A...... 628 Ferrar, J. A...... 714 Dai, H.-L...... 409, 661 Dijkstra, M...... 695 Eales, A. D...... 496 Ferrari, V. A...... 248, Dai, S...... 44 Dillon, P. J...... 658 Earhart, C...... 630 ...... 509, 512 Damasceno, P. F...... 288 Dimkpa, C. O...... 539 Eastoe, J...... 675 Ferrier, R. C...... 253 Dani, A...... 488 Ding, Y...... 406 Ebbens, S. J...... 148, 438 Feshitan, J. A...... 374 Daniels, E...... 322 Dingal, D. P...... 444 Eckmann, D. M. ....253, 448, Fewkes, C...... 24 Dao, M...... 424 Dingal, P. P...... 446 ...... 580, 643 Fichthorn, K...... 709 Dartnell, N...... 496 Di Nicolò, E...... 570 Edmond, K. V...... 569 Fichthorn, K. A...... 159 Das, C...... 107 Dinsmore, A. D...... 72, 143 Edwards, T...... 277 Fidan, O...... 309 Das, S...... 528 Diroll, B...... 257, 313 Edwards, T. D...... 596 Fielding, L. A...... 207, 392 Das, S. C...... 725 Diroll, B. T...... 681, 718 Egami, T...... 665 Fields, S...... 677 Dauchot, O...... 6 Discher, D...... 579 Egelhaaf, S...... 154, 550 Findenegg, G. H...... 164 Davidovitch, B...... 143 Discher, D. E...... 444, Eggleton, C...... 713 Firester, D. M...... 708 Davidson, S. M...... 183 ...... 446, 644 Eibling, M...... 253 Fischer, P...... 221 DeCamp, S. J...... 95 Do, C...... 617, 665, 704 Elimelech, M...... 17, 380, Fischer, S...... 16 de Faria, A. F...... 381 Doan-Nguyen, V...... 252, ...... 381, 527 Flach, C. R...... 108 de Graaf, J...... 695 ...... 390, 718 Ellis, P. W...... 317 Flenner, E...... 203 DeLacy, B. G...... 409 Dodson, T...... 348, 552 Ellis, P...... 699 Florea, D...... 25 de la Iglesia, P...... 619 Dogic, Z...... 95 Emert, J. I...... 668 Fol s, L...... 680 Delassandro, J...... 127 Domach, M...... 424 Engel, M...... 288, 289 Forth, J...... 378 Del Fa , N...... 217 Dominguez, H...... 298 Engheta, N...... 115, 599 Fortner, J. D...... 192 Del Gado, E...... 178, Donahue, H...... 352 Erickson, D...... 197 Fourkas, J...... 401 ...... 201, 648 Dong, B...... 111 Ether, D...... 285 Fowler, P. W...... 392 Della Giovampaola, C. ..599 Donnio, B...... 256 Evans, M...... 134 Fraden, S...... 8 de Mello Donega, C...... 695 Dorit, R. L...... 230 Even, R. C...... 573 Fragkopoulos, A...... 699 Demirörs, A. F...... 524 Douglas, J...... 397 Extrand, C. W...... 434 Fragkopoulos, A. A...... 318 Denkov, N...... 123, 126 Douglas, J. F...... 499 Eze, N...... 31 Franey, D. G...... 15 Denkov, N. D...... 316, Dove, J...... 537 Ezzibdeh, R. M...... 512 Franses, E. I...... 388 ...... 517, 533 Dowding, P. J...... 566 Fabris, L...... 114 Franses, E...... 521 Denn, M. M...... 220 Dowling, M. B...... 373 Fagan, J...... 522, 567 Fra arelli, D...... 18 Dennin, M...... 35 Drake, I...... 471 Fairbrother, D. H. ....41, 382 Freche e, J...... 199, 213, Dennis, P...... 405, 584 Drazenovic, J...... 541 Fairbrother, H...... 385 ...... 300, 311, 449, 501 de Pablo, J. J...... 10, 641 Drazer, G...... 449, 494 Fairhurst, D...... 682 Frecker, M...... 281 DePaoli, D...... 44 Drenckhan, W...... 124 Fakhraai, Z. ....64, 115, 138, French, D. J...... 602 Dermody, D...... 720 Drews, A. M...... 150, 402 ...... 293, 294, 296 Frenkel, D...... 263, 339 Derry, M. J...... 207 Dreyfus, R...... 256, 394 Falus, P...... 12, 647, 665 Fronk, T...... 309 de Ruijter, C. H...... 681 D’Souza, W...... 582 Fameau, A. L...... 187 Fu, L...... 523 Desert, A...... 217, 282 Du, X...... 476 Fameau, A.-L...... 177 Fuchs, M...... 154 de Silva, U. K...... 337, 615 Ducker, W...... 660 Fan, A...... 581 Furlan, M...... 672 De Silva Indrasekara, A...... Duelge, K...... 456 Fang, J...... 139 Furst, E. M...... 33, 153, ...... 114 Dufresne, E...... 629 Fang, Y...... 69 ...... 525, 716 Desreumaux, N...... 6 Dufresne, E. R...... 36, 430, Faraone, A...... 87 Fytas, G...... 716 Devahif, T...... 382 ...... 487, 560 Fares, H...... 680 Gabi o, J...... 44 DeVoe, D...... 631 Duguet, E...... 217 Faria, A. F...... 17 Gagnon, D. A...... 504 De Vries, A...... 635 Dugyala, V...... 76, 174 Farrell, Z...... 520 Gaillard, J.-F...... 383 Dey, K. K...... 528 Duits, M. H...... 86 Fa accioli, J...... 171, 607 Gallo, N...... 598 Dhong, C...... 199, 311, 501 Dumetz, A. C...... 11 Fauser, H...... 234 Ganesan, M...... 349

210 211 Ganesan, N...... 306 Goodwin, E. D...... 681 Hansson, P. M...... 594 Huang, H...... 510 Gang, O...... 29 Gordon, T. R...... 454 Hao, Y...... 252 Huang, J.-Y...... 157 Gantapara, A. P...... 695 Gordon, V...... 340 Harada, T...... 444, 579 Huang, J...... 230 Gao, D...... 375 Gorski, C...... 122 Harden, J. L...... 16, 152 Huang, P...... 440 Gao, J...... 679 Gorte, R. J...... 609 Hart, R...... 630 Huang, S...... 204, 369 Gao, S...... 611 Goulian, M. D...... 445 Harwell, J...... 472 Huang, X...... 91 Gao, T...... 97 Govorov, A...... 330 Harwood, D...... 632 Huang, Y...... 331, 353, Gao, Y...... 151 Goyal, A...... 103 Hashemipour, R...... 439 ...... 482, 625 Garbin, V...... 473 Grady, B...... 472 Hassan, A. M...... 499 Hubert, C...... 217 Garboczi, E. J...... 499 Gradzielski, M...... 368, 553 Hassouneh, W...... 68 Huck, W. T...... 96 Gargava, A...... 245 Granick, S...... 5 Has ng, S. P...... 115 Hudson, S...... 397 Garoff , S...... 49, 209, 232, Gratale, M...... 667 Haverkamp, R...... 539 Hudson, S. D. ...12, 33, 109, ...... 429, 543, 701 Gray, K. A...... 383 Hazekamp, J...... 686 ...... 427, 499, 647 Garrido, K...... 269 Green, D...... 520 He, J...... 80, 130, 401, 456 Hughes, A. D...... 471 Gasparu o, D...... 253 Green, Y...... 184 He, K...... 545 Hui, C.-Y...... 428 Gaulding, A...... 257 Gregory, D. A...... 148 He, L...... 655 Hunter, G. L...... 476 Gaulding, E. A...... 313 Grest, G. S...... 483 HE, W...... 143 Huyghe, J. M...... 25 Ge, A...... 707 Greybush, N. J...... 599 Hecht, E...... 442 Hwang, D...... 627 Ge, D...... 90 Grier, D. G. ....110, 603, 674 Heiney, P...... 562 Hwang, H...... 398 Gehrels, E. W...... 437 Grieser, F...... 175, 364, 592 Heinrich, F...... 514, 586 Iezzi, R...... 233 Geisel, K...... 489 Griffi ths, D...... 231 Helgeson, M. E...... 151 Ignes-Mullol, J...... 99 Gerard, P...... 370 Grillo, I...... 553 Hemminger, J. C...... 470 Ilg, P...... 201 Gharbi, M...... 413 Grogan, J. M...... 179 Hendricks, J...... 550 In, M...... 450 Gharbi, M. A...... 412, 416, Gross, A...... 147 Heng, J...... 247 Ioannidou, K...... 178 ...... 640, 697 Grzybowski, B...... 524 Henry, S. J...... 605 Irianto, J...... 644 Gharbi, M...... 638, 642 Guha, R...... 185 Hernandez, S...... 99 Irvine, W...... 145 Ghosh, M...... 472 Guignard, F...... 420 Hersam, M...... 39 Irvine, W. T...... 21 Ghosh, S...... 86 Guillot, P...... 664 Herve, P...... 365 Isa, L...... 423, 487, 489 Gianola, D. S...... 625 Guiney, L...... 39 Heunemann, P...... 221 Issadore, D...... 325, 404 Giasuddin, A...... 583 Guo, H...... 152 Hilbert, J...... 200 Ivanovska, I. L...... 444 Giavazzi, F...... 570 Guo, J...... 472 Hoff mann, K. Q...... 10 Iwanicki, M...... 262 Gilchrist, J...... 278, 322, Guo, L...... 691 Hogan, G...... 262 Jacobi, I...... 155, 688 ...... 366, 425 Guo, L.-H...... 45 Hollingsworth, A. D...... 569 Jacobson, T. W...... 569 Gillespie, D...... 637a Guo, S...... 651 Holt, A. L...... 552 Jagota, A...... 428 Gines, G...... 253 Gupta, A...... 677 Homsy, G. M...... 37 Jaiswal, A...... 694 Glor, E...... 296 Gupta, C...... 464 Hong, K...... 12, 647, 704 Jakli, A...... 170 Glor, E. C...... 294 Gupta, R...... 224 Hong, W...... 72 Jalali, M...... 343 Glotzer, S...... 182, 292 Gupta, S...... 219 Honglawan, A...... 416 Jalali Mousavi, M...... 345 Glotzer, S. C...... 288, 289, Guzman, F. J...... 612 Hore, M. J...... 253 James, C...... 675 ...... 290, 291 Ha, J...... 431 Horiuchi, H...... 703 Jang, A...... 269 Go, R. S...... 382 Haase, M...... 30 Hoshino, T...... 239 Jang, K.-S...... 332 Godfrin, P...... 647 Haase, M. F...... 690 Hosseinidoust, Z...... 168 Jang, W.-S...... 436, 605 Godfrin, P. D...... 12 Habdas, P...... 262 Hou, C.-H...... 610 Jankowska, K. I...... 251 Goforth, A. M...... 511 Hadiputra, I...... 451 Hough, L...... 141, 256, Javvaji, V...... 439 Goh, C...... 508 Hagan, M. F...... 4, 95 ...... 365, 394 Jaykus, L.-A...... 101 Goh, M...... 323 Hagans, N...... 34 Houghton, P. A...... 224 Jelinek, R...... 169, 244, 595 Göklen, K. E...... 11 Hakimi, N...... 627 Hoy, R. S...... 622 Jenkins, I...... 113 Goldbart, P...... 669 Hall, C...... 264 Hrechka, V...... 140 Jenkins, I. C...... 32, 117 Goldbart, P. M...... 165 Hallez, Y...... 453 Hsiao, L. C...... 153 Jensen, K. E...... 36, 430 Goldman, J. M...... 544 Hamilton, W. A...... 665, 704 Hsu, C.-J...... 228 Jeong, J...... 147 Golestanian, R...... 148, 346 Hammer, D. A...... 235, Hu, D. L...... 344, 431 Ji, S...... 20 Gollub, J. P...... 56 ...... 436, 605 Hu, H...... 702 Jiang, Y...... 192, 653, 656 Gonella, G...... 409, 661 Han, K...... 526 Hu, Y...... 236 Jin, Y...... 302, 478, 689, 712 Goodrich, C. P...... 396, 620 Han, K.-B...... 237 Hua, X...... 213 Jing, B...... 198 Goodwin, D. G...... 382 Hanisch, M...... 301 Huang, D...... 582 Jo, A...... 520

212 213 Jo, H...... 350 Kiggans, J...... 44 Krishnamoor , R. ....87, 545 Lee, K. Y...... 516 John, G...... 637 Kikkawa, J. M...... 726 Krishnatreya, B...... 110 Lee, N...... 319 John, V. T...... 536 Kilmer, M. D...... 469 Kubicki, J. D...... 467 Lee, S...... 192, 271, Johnson, V...... 680 Kim, B...... 541 Kubilius, M. B...... 67 ...... 314, 670 Jones, C. W...... 332 Kim, H...... 585 Kuijk, A...... 686 Lee, S. S...... 597 Jones, K. J...... 329 Kim, H.-J...... 332, 535 Kumar, A...... 259, 436 Lee, W...... 179 Jones, R...... 397 Kim, J.-H...... 338 Kumar, M...... 185 Legband, N...... 374 Josey, B...... 514 Kim, J...... 151, 272, 280, Kumar, S...... 407 Leheny, R...... 411 Joshi, K...... 278 ...... 312, 334, 335, 726 Kung, S.-C...... 546 Leheny, R. L...... 152, Joshi, Y. M...... 218 Kim, M...... 233 Kunz, D. A...... 116 ...... 445, 708 Joy, M...... 366 Kim, N...... 323 Kuo, C.-H...... 69 Leibowitz, N...... 184 Juarez, G...... 657 Kim, S...... 156, 326, Kuo, C.-C...... 35 Lenhoff , A...... 196 Jun, K...... 536, 601 ...... 286, 312, 334 Kuo, Y.-C...... 582 Lennox, R...... 415 Kade, M...... 69 Kim, S.-H...... 132 Kurchan, J...... 478 Leon, L...... 10, 69 Kade, M. J...... 10 Kim, T.-H...... 704 Kurihara, K...... 590 Lesieutre, G...... 281 Kagan, C. R...... 599, 681 Kim, Y...... 321, 328 Kwok, M...... 188 Lesov, I...... 533 Kalantar, T...... 471 Kim, Y.-H...... 128 Kyburz, K. A...... 645 Leubner, I. H...... 283, 308 Kalinowski, M...... 720 Kim, Y.-J...... 323 Ladshaw, A...... 42 Levitz, P...... 178 Kamien, R...... 412, 413, 642 Kim, Y. S...... 132, 265 Laguerre, M...... 258 Lewis, G...... 352 Kamien, R. D...... 416, Kimber, S. A...... 718 Lai, Y.-K...... 157, 574 Lewis, S. A...... 150 ...... 640, 697 Kimerling, L. C...... 700 Lalanne-Aulet, D...... 664 Li, C...... 115, 138, 296, 372 Kang, L...... 559 Kirby, S. M...... 463 Lally, E. T...... 515 Li, D...... 726 Kang, S...... 269 Kishimoto, H...... 614 Lam, S...... 187, 234 Li, H...... 698 Kang, S.-M...... 722 Klapp, S. H...... 264 Lammers Wilking, K...... 127 Li, J...... 211, 471, 555, 694 Kappl, M...... 433 Klein, R...... 69 Lanauze, J. A...... 120 Li, L...... 371 Kar, A...... 50, 122, 185 Klein, R. A...... 10 Landfester, K...... 205 Li, M...... 246 Kargar, M...... 660 Klitzing, R. v...... 234 Landis, E...... 693 Li, N...... 251, 303 Karimi, K...... 55, 395 Klotsa, D...... 288, 289 Lane, J. A...... 207 Li, W...... 192 Karinshak, K...... 472 Klupp Taylor, R...... 301, 418 Lane, M. D...... 483 Li, X...... 324, 610, 617, Karnik, R...... 399 Knapp, E...... 458 Lanfranco, R...... 570 ...... 665, 673, 704 Kastrisianaki-Guyton, E...... Ko, D.-K...... 454 Langevin, D...... 124 Li, Y...... 456 ...... 408 Ko, J...... 325 Lankone, R...... 385 Li, Z...... 484, 709 Kasuya, M...... 590 Kodger, T...... 132 Lanphere, J...... 39 Liebowitz, N...... 121 Kaszuba, M...... 274 Koenig, P. H...... 634 Lapitsky, Y...... 331, 337, Liel, U...... 121 Kaufman, G...... 629 Kogler, F...... 264 ...... 353, 482, 615 Lim, D.-K...... 240 Kaxiras, E...... 52 Komura, S...... 105, 239 Larese-Casanova, P...... 129 Lim, P...... 14 Kazem, N...... 417 Kong, T...... 466 Larson, R...... 347 Lim, S...... 703 Ke, S.-C...... 256 Kooi, S. E...... 700 Larson, R. G. ....81, 634, 709 Lin, C.-C...... 255 Kea ng, C. D...... 261, 273 Kooijman, E. E...... 170 Latsuzbaia, R...... 635 Lin, F...... 655 Kea ng, C...... 377 Kooijman, E...... 706 La uada, M...... 420, 672 Lin, J...... 440 Kegel, W. K...... 216 Koper, G. J...... 635 Laura , M...... 154, 550 Lin, L...... 273 Keim, N. C...... 504, 623 Koplik, J...... 210, 342 Lavrentovich, O. D...... 414 Lin, P.-T...... 700 Keiser, G...... 488 Koppert, R...... 686 Law, B. M...... 297 Lin, W...... 604 Kelkar, A...... 521 Koros, W. J...... 332 Lawrence, P. G...... 331, 482 LIN, Y.-C...... 64, 138 Kelkar, A. V...... 388 Koser, A. E...... 341, 507 Lazouskaya, V...... 302, 712 Lindberg, S...... 37 Kelley, M. J...... 43 Kotar, J...... 346 Lee, B.-J...... 722 Lindner, A...... 84 Kelly, J...... 383 Kotov, N...... 330 Lee, C.-S...... 722 Li , H. I...... 442, 511 Kester, M...... 276 Kotula, A...... 38, 57 Lee, D...... 58, 224, 235, Liu, A...... 136, 687 Khair, A. S...... 118, 120, 459 Kotulak, N...... 305 ...... 259, 268, 436, 491, Liu, A. J...... 52, 396, 620 Khan, I...... 26 Koumakis, N...... 154 ...... 551, 575, 605, 625, 723 Liu, C...... 258 Khan, S. A...... 187 Kovach, K...... 340 Lee, H...... 156, 315, 326 Liu, I. B...... 144, 640 Khanal, A...... 543 Koynov, K...... 51, 205 Lee, H.-S...... 253 Liu, L...... 309 Khosla, T...... 363 Kretzschmar, I...... 88, 149, Lee, H.-Y...... 150, 402 Liu, P...... 256 Khosravi, H...... 100 ...... 210, 719 Lee, J. W...... 324, 613 Liu, Q...... 362 Kibar, A...... 158 Kreyes, A...... 205 Lee, J...... 119, 268 Liu, T...... 138, 293, 296

214 215 Liu, X. ....236, 249, 379, 726 Mann, J. A...... 46 Meredith, J. C...... 474 Mütze, A...... 221 Liu, Y. ....12, 75, 79, 80, 401, Manna, K...... 18 Merger, D...... 151 Mwasame, P. M...... 568 ...... 456, 617, 647, Manning, L...... 624 Mertens, B...... 101 Mykhaylyk, O. O...... 392 ...... 665, 696, 704 Manning, M. L...... 3 Meski, G. A...... 224 Nadermann, N...... 428 Liu, Z...... 344, 466 Manning, M...... 135 Metcalf, L...... 411 Nagao, M...... 351 Loc, W. S...... 276 Manoharan, V. N. ...28, 116, Me u, S...... 451 Nagel, S...... 136 Loewenberg, M...... 629 ...... 132, 210, 437 Meyerson, M...... 254 Nagel, S. R...... 620 Lohr, M...... 638 Mansukhani, N...... 39 Michel, J...... 700 Naha, P. C. ....248, 442, 509, Lone, S...... 607a Mansy, S...... 377 Miglierini, M...... 718 ...... 511, 512, 598, 659 Lopez, G...... 523 Mao, G...... 108 Mihut, A. M...... 181 Naik, R...... 405 Lopez, G. P...... 526, 628 Marcasuzaa, P...... 370 Milam, V...... 405 Naik, R. R...... 584 Lopez-Barron, C. R...... 299 Marche , M. C...... 3 Milam, V. T...... 31, 584 Nair, P...... 579 Lösche, M...... 514, 586 Marcoux, C...... 523 Mile e, J...... 415 Nair, S...... 332 Lo izadeh, S...... 391 Margossian, K...... 69 Millan, J...... 291 Nallamilli, T...... 71, 189 Lounsbury, A. W...... 129 Margossian, K. O...... 10 Miller, D...... 641 Nam, J.-O...... 722 Lu, A...... 439, 631 Mari, R...... 220 Milner, S. T...... 709 Nam, Y...... 268 Lu, C...... 508 Maroni, P...... 452 Min, Y...... 555 Nandi, S...... 169 Lu, Z...... 456 Marquez, S...... 585 Ming, W...... 225, 571 Nayani, K...... 699 Lubensky, T. C...... 147, 559 Marson, R...... 290 Mirheydari, M...... 706 Ndong, R. S...... 679 Lukes, J. R...... 200 Mar n, D. C...... 233 Mitragotri, S...... 577 Neeson, M...... 175 Lundgard, R...... 720 Mar neau, N...... 539 Mi al, J...... 406, 618 Negi, A...... 222 Luo, Q...... 455 Mar nez, J...... 389 Mizukami, H...... 237 Negro, E...... 635 Luo, Y...... 412, 697 Mar nez San ago, J. ....465 Mizukami, M...... 590 Neja , S...... 629 Lupascu, A...... 323 Masliyah, J...... 362 Mogne , B. M...... 263 Nelson, C. W...... 62 Ly, D. Q...... 208 Masoero, E...... 178 Molaei, M...... 343 Nelson, D...... 586 Lydon, M. E...... 100 Ma sons, J. G...... 94 Moncho-Jordá, A...... 102 Nery Azevedo, R...... 186 Lyon, L...... 669 Matsoukas, T...... 391 Montes Ruiz-Cabello, F. J. ... Neto, C...... 19 Ma, F...... 267, 279, Ma ers, G...... 276 ...... 452 Neto, P...... 285 ...... 532, 715 Matyjaszewski, K...... 519 Moon, S. I...... 434 Newberg, J. T...... 468 Ma, J...... 227 Maurini, C...... 500 Moore, J. S...... 471 Newbloom, G. M...... 140, Maass, C...... 561 Mayer, T. S...... 273 Moore, M...... 101 ...... 619 Mack Correa, M. C...... 108 Mayes, R...... 44 Mora, S...... 500 Ng, H...... 521 Maestro, A...... 124, 346 Mays, B...... 122 Morfesis, A...... 231, 274 Ngai, T...... 188, 604 Maggs, A. C...... 396 McCaff erty, C...... 536, 601 Mornet, S...... 217 Ngo, V. L...... 640 Magkiriadou, S...... 132 McClimon, J...... 200 Morris, J. F...... 220, 613 Nguyen, F...... 616 Mahmoudi, S...... 652 McCormick, A...... 336 Morrison, I. D...... 668 Nichol, J. L...... 598 Majee, A...... 70 McCreanor, A...... 48 Mosayebi, M...... 201 Nie, Z...... 80, 254, 401, Maje ch, S. A...... 600 McDermo , J. J...... 668 Moun ord, P...... 705 ...... 440, 456, 601 Makatsoris, C...... 208 McDonald, B...... 304 Moyle, T. M...... 63 Niitsoo, O...... 673 Malassis, L...... 256 McGann, M...... 274 Moyses, H. W...... 110 Nijsse, J...... 686 Maldarelli, C. 342, 458, 488 McGinley, J...... 564 Mozaff ari, A...... 342 Nikolov, A. D...... 47, 703 Malinenko, A...... 258 McGinley, J. T...... 32, Muangnapoh, T...... 366 Nishida, T...... 707 Malone, B...... 52 ...... 113, 117 Mueller, A. H...... 77 Noel, A...... 431 Maloney, C. E...... 55, McGovern, C. O...... 276 Mugele, F...... 86 Nordstrom, K. N...... 56 ...... 395, 417 McKenna, G. B...... 426 Mukhopadhyay, S...... 549 Noro, M...... 107 Malotky, D...... 720 McKinley, G. H...... 89 Mulligan, C...... 194 Norton, M. M...... 58 Mandal, P...... 46 McLean, J. E...... 539 Muluneh, M...... 325 Nussenzveig, H. M...... 285 Manet, S...... 415 Medina-Noyola, M...... 361 Munhall, J...... 231 Nystrøm, B. Ø...... 591 Manghi, M...... 711 Mehta, S. K...... 410 Murphy, R...... 141, 256 Oakey, J...... 61 Mangolini, F...... 200 Meincke, T...... 418 Murrary, C. B...... 598 Oberdick, S. D...... 600 Mani, A...... 183 Meireles, M...... 453 Murray, C. B...... 252, 390, Oda, R...... 258 Mani, E...... 71, 73, 189, 421 Meissner, J...... 164 ...... 454, 457, 599, O’Dea, C...... 34 Manigandan, S...... 421 Mejia, A...... 698 ...... 681, 718, 726 Oh, H. ....103, 439, 481, 582 Mann, E. K...... 46, 170 Mendelsohn, R...... 108 Murray, T...... 537 Oh, S...... 599 Mann, E...... 706 Menzel, C...... 275 Musa, S...... 25 Oh, T.-S...... 609

216 217 Ohno, K...... 255 Peng, Y...... 583 Qian, Z...... 115 Riggleman, R...... 137 Oko, A...... 176 Perera, T...... 425 Qin, J...... 10 Riggleman, R. A...... 398 Okoye, N. H...... 337 Perez, M. T...... 254 Quan, Y...... 694 Riley, J. K...... 519 Olmsted, P...... 107 Perrault, F...... 17 Queeney, K...... 230 Rio, E...... 124 Olmsted, P. D...... 106 Perreault, F...... 380, 381 Queeney, K. T...... 310 Rivera, M...... 298 Oncsik, T...... 282 Perro-Marre, A...... 217 Quennouz, N...... 84 Robbins, M. O...... 53, Opila, R...... 305 Perry, S...... 69 Quignon, B...... 588 ...... 502, 691 Or z, D...... 291 Perry, S. L...... 10 Raab, M...... 446 Roberts, C. J...... 33 Osawa, M...... 707 Pertreux, E...... 217 Radhakrishnan, R...... 356, Rodesney, C...... 340 Ostafi n, A...... 237 Pesika, N...... 363 ...... 358, 448, 558, 580, 643 Rodriguez, P...... 579 Osuji, C...... 222 Petekidis, G...... 154 Radke, C. J...... 14, 616 Rogers, S...... 85, 219, Osuji, C. O...... 204, 369, Peters, C. J...... 632 Raghavan, S...... 582, 631 ...... 327, 675 ...... 527, 629 Petersson, E. J...... 64 Raghavan, S. R. ....103, 172, Rogers, W. B...... 28, 116, Oswald, P...... 415 Pfromm, P. H...... 297 ...... 180, 245, 373, 439, ...... 132, 437 Owoseni, O...... 536 Philipse, A...... 21 ...... 481, 510, 536, 601 Roh, S...... 727 Ozbay, R...... 158 Piacen ni, A...... 664 Ragunathan, R...... 245 Roichman, Y...... 646 Ozen Cansoy, E...... 92 Pick, C. M...... 449 Rahaman, M...... 194 Rokowski, J. M...... 573 Pacheco, M...... 298 Pierce, C...... 69 Rahmawan, Y...... 90 Romero-Vargas Castrillón, S. Paik, T. ...390, 454, 598, 726 Pierce, C. F...... 10 Ramakrishnan, N...... 356, ...... 380 Pairam, E...... 318, 699 Pilkington, G. A...... 22 ...... 358, 448, 558 Romsted, L. S...... 258, 304 Palacci, J...... 161 Pincet, F...... 376 Ramakrishnan, S. ..152, 222 Rosa, F. S...... 285 Palanisamy, D...... 726 Pincus, P. A...... 450 Rannou, P...... 253 Ross, F. M...... 179 Palmeri, J...... 711 Pine, D...... 21, 27, 161 Ranville, J...... 385 Rossi, L...... 21 Pan, L...... 111 Pine, D. J...... 419, 569 Rathnayke, S...... 706 Rothman, J...... 376 Pandit, K. R...... 172 Pinkerton, N. M...... 375 Ravaine, S...... 217 Ro ler, J...... 52 Pansare, V...... 443 Pinnamaneni, S...... 694 Ravichandran, A...... 144 Routh, A...... 13 Pantano, D...... 579 Pir-Cakmak, F...... 261 Ray, D...... 7 Routh, A. F...... 48, 496, 566 Paolella, D. N...... 11 Pomeau, Y...... 500 Razavi, S...... 210, 719 Rovner, J. B...... 33 Papadopoulos, P...... 51 Ponnurangam, S...... 389 Redmon, C. G...... 222 Roy, A...... 55 Papae hymiou, G. C. ....726 Pontani, L.-L...... 30 Redner, G. S...... 4, 95 Royer, J. R...... 427, 499 Paretkar, D...... 428 Pontoni, D...... 718 Reeder, R. J...... 193 Rubin, J...... 100 Parisi, G...... 478 Popov, P...... 170 Reeves, M...... 606 Rubinstein, M...... 68 Park, C...... 268, 333, 400 Porcar, L...... 617, 665, 704 Reich, D...... 411 Ruff ner, D. B...... 674 Park, C. B...... 212 Porrini, M...... 258 Reich, D. H...... 708 Rupp, B...... 460 Park, H...... 312, 334 Poyton, M...... 528 Reichhardt, C...... 7, 162 Russell, S. T...... 72 Park, J...... 350 Pozzo, L. D...... 140, 619 Reichhardt, C. J...... 7, 162 Ruths, M...... 589 Park, J.-G...... 132 Pramudita, R...... 321 Reifsnyder, D. C...... 718 Ruzicka, B...... 685 Park, K.-C...... 89 Pra , E...... 579 Reilly, M. P...... 248, 509 Rykaczewski, K...... 223 Park, S...... 121, 184, Prausnitz, J. M...... 616 Reinhardt, A...... 339 Ryoo, H...... 268 ...... 436, 605 Prevost, S...... 553 Relaix, S...... 415 Ryoo, W...... 321 Park, S.-J...... 115 Priestley, R...... 563 Remijn, C...... 686 Ryoo, W. S...... 328, 333 Park, T...... 542 Prieve, D. C...... 118 Remsing, R. C...... 554 Saboktakin, M...... 599 Pascall, A...... 186 Pri is, D...... 10, 69 Ren, B...... 149 Sacanna, S...... 21, 161, 569 Patchornik, G...... 547 Primkulov, B...... 655 Reven, L...... 415 Sadafi , F.-Z...... 418 Patel, A. J...... 554 Procar, L...... 647 Rey, A...... 415 Saez, C...... 510 Patel, S...... 236, 306 Prosser, J. H...... 723 Reyssat, M...... 403 Safran, S. A...... 450 Pathak, J. A...... 397 Pruden, A...... 660 Rezac, M. E...... 297 Sagues, F...... 99 Paus an, J...... 186 Prud’homme, R. K...... 59, Rezvantalab, H...... 494, Sakai, T...... 707 Payne, J. B...... 382 ...... 375, 443, 480, 513, ...... 534, 565 Salami, E...... 293 Pedu, S...... 530 ...... 518, 578, 692 Richter, C...... 530 Salansky, K...... 11 Pelaez-Fernandez, M. ... 669 Prudhomme, R...... 563 Richtering, W...... 489 Salerno, K...... 483 Pellenq, R...... 178 Przybycien, T. ..49, 232, 701 Ricouvier, j...... 403 Salerno, K. M...... 53 Pelligra, C. I...... 204, 369 Przybycien, T. M. ...209, 543 Riehm, D...... 336 Salina, M...... 570 Peng, C.-C...... 14 Purohit, P...... 66, 355 Rieser, J...... 52 Salipante, P. F...... 109 Peng, X...... 426 Pustulka, S...... 530 Rieser, J. M...... 56 Salonen, A...... 124

218 219 Samudrala, N...... 487 Sharma, R...... 49, 190 Sosa, C...... 563 Tabeling, P. J...... 403 Sanchez Diaz, L. E...... 215, Sharma, S...... 241 Sosa, I. B...... 382 Taboada-Serrano, P...... 530, ...... 361 Shaulsky, E...... 17 Soulé, E...... 415 ...... 610 Sanchez-Diaz, L. E...... 665, Shavit, A...... 137 Souslov, A...... 165, 669 Tabor, R...... 24, 175, 364 ...... 704 Sheffi eld, J. B...... 661 Spahr, C...... 661 Tabor, R. F...... 592 Sancho Oltra, N...... 579 Shelley, M...... 84 Spellings, M...... 290 Takagi, C...... 237 Sandler, S. I...... 196 Shelton, C...... 520 Speranza, F...... 556 Tan, C. C...... 611 Sarangapani, P...... 397 Shemi, O...... 78 Sperling, M...... 368 Tan, H...... 604 Sarfa , R...... 430, 560 Shen, A...... 37, 338 Spicer, P...... 678 Tang, X...... 243, 246, 634 Sarfa , R. S...... 36 Shen, B...... 403 Spidle, R. T...... 725 Tapp, M. N...... 405, 584 Saric, A...... 263, 357 Shen, C...... 302 Spies, I...... 301 Taylor, E. A...... 352 Sarikhani, K...... 212 Sheng, J...... 343, 445 Spinler, K...... 579 Tcholakova, S...... 123, 316, Sarkar, A...... 580 Shew, C.-Y...... 215 Spinler, K. R...... 444 ...... 517, 533 Sarshar, M. A...... 653, 656 Shi, Z...... 447 Squires, T. M...... 186, 423 Tcholakova, S. S...... 126 Sasidharan, S...... 658 Shields, C. W...... 526, 628 Staff , R...... 205 Tchoukov, P...... 362 Savaji, K. V...... 529 Shifl e , M. B...... 679 Stebe, K...... 303, 343, Telo da Gama, M...... 146 Save, M...... 370 Shin, J.-W...... 444 ...... 413, 638, 642 Tennenbaum, M. J...... 344 Saven, J. G...... 253 Shin, S...... 150 Stebe, K. J. ...144, 224, 251, Terentjev, E...... 479 Say, C...... 230 Shinohara, Y...... 614 ...... 412, 416, 445, Terentjev, E. M...... 23 Schade, N. B...... 116 Shojaei-Zadeh, S...... 494, ...... 640, 697, 708 Terfl oth, G. J...... 11 Schaeff el, D...... 205 ...... 534, 565 Ste en, A. Z...... 232, 701 Terry, B...... 374 Schall, P...... 621 Shpaisman, H...... 603 Stevens, M. J...... 65 Tewari, M...... 444 Schein, P...... 197 Shum, A...... 211 Stewart, E. J...... 349 Thenuwara, A...... 193 Schi auer, J...... 121, 184 Shum, H...... 466 S ll, T...... 56, 394, 396 Thiam, A. R...... 629 Schlossman, M...... 74, 608 Sides, P. J...... 118 Stocker, R...... 657 Thiam, A.-R...... 376 Schneider, D...... 716 Sidhu, G...... 636 Stone, H. A. ...155, 375, 688 Thijssen, J...... 606 Schneider, J. W...... 544 Siepmann, J...... 632 Stout, R. F...... 459 Thio, B. R...... 611 Schneider, N. M...... 179 Silvera Ba sta, C...... 567 Stoyanov, S...... 517 Thomas, E. L...... 700 Schoenholz, S...... 396 Silvera Ba sta, C. A...... 683 Stoyanov, S. D...... 727 Thomas, R. K...... 556 Schoenholz, S. S...... 52 Sim, G...... 168 Streator, J...... 431 Thompson, R. P...... 212 Schoonen, M. A...... 127 Singer, J. P...... 369, 700 Strickland, D...... 625 Thormann, E...... 594 Schreiber, N...... 305 Singh, M...... 94 Striolo, A...... 492 Thoroddsen, S. T...... 607a Schulman, R...... 242 Sinha, S...... 236 Strongin, D. R...... 127, 193 Thutupalli, S...... 160 Schultz, K. M...... 645 Sinha, S. K...... 306 Style, R. W...... 36, 430 Tian, Z...... 598 Schurtenberger, P...... 181 Sinko, P. J...... 375 Subramanyam, S. B...... 223 Tierno, P...... 99 Scior no, F...... 214 Sinno, T...... 32, 113, 117 Sullivan, R...... 405, 584 Tilton, R. D. ....49, 209, 232, Sedighi Moghaddam, M. .... Smith, A.-S...... 418 Sun, D...... 628 ...... 519, 543, 701 ...... 572 Smith, G. S...... 617, Sun, J...... 45 Tirrell, M...... 10, 69 Seeman, N...... 30, 561 ...... 665, 704 Sun, T...... 302, 712 Toff ole o, F...... 710 Sehgal, C. M...... 235 Smoukov, S...... 490 Sun, Y...... 372, 676, 702 Tong, P...... 651 Sells, T...... 616 Smoukov, S. K...... 187 Suruchi, S...... 93 Tong, T...... 383 Sen, A...... 528 Snyder, M. A...... 546, 618 Sussman, D...... 136 Tong, Y...... 707 Senbil, N...... 143 Socolar, J...... 523 Su on, M...... 415 Tong, Y. J...... 75, 696, 724 Sender, M...... 677 Soligno, G...... 695 Suzuki, K...... 707 Tongkhundam, J...... 270 Sengupta, S...... 528 Solomon, M. J...... 78, 81, Swaminathan, S...... 224 Torkzaban, S...... 658 Sentjabrskaja, T...... 550 ...... 153, 349, 714 Sweeney, A...... 348, Torquato, S...... 394 Serra, F...... 412, 697 Somasundaran, P...... 389, ...... 552, 562 Torre, P...... 377 Seto, R...... 220 ...... 465 Swerin, A...... 176, 432, Tourdot, R...... 358 Sha, R...... 30, 561 Son, H...... 268 ...... 572, 594 Tourdot, R. W...... 356, 558 Shapturenka, P...... 88 Song, K.-H...... 581 Swi , J...... 444, 644 Tousley, M. E...... 381, 527 Sharick, S...... 295 Song, M...... 618 Szabo, T...... 282 Townsend, J...... 348, 552 Sharifi an, M...... 661 Song, S...... 319 Szamel, G...... 203 Tran, A...... 14 Sharifi Mood, N...... 342 Song, Y...... 211 Szilagyi, I...... 282 Tran, M. Q...... 573 Sharifi -Mood, N...... 144 Soni, V...... 21 Szleifer, I...... 359 Trefalt, G...... 282, 452 Sharma, K...... 44 Sonn-Segev, A...... 646 Tabakovic, A...... 693 Tréguer-Delapierre, M. .217

220 221 Tribe, L...... 469 Vinod, T...... 244, 595 Weldon, A. ....278, 322, 366 Yang, L...... 90 Tsai, S. S...... 627 Vitelli, V...... 477 Wengatz, J. A...... 337 Yang, S...... 90, 412, 413, Tsouris, C...... 42, 44, 128 Vitoshkin, H...... 643 Wesner, J. C...... 37 ...... 416, 557, 640, 642, 670 Tsourkas, A. ...325, 442, 598 Vogel, W. D...... 726 We laufer, J. S...... 36 Yang, X...... 3, 372, 676, 718 Tu, F...... 491, 605 Vohs, J. M...... 609 Wexler, J. S...... 155, 688 Yang, Y. ....41, 277, 523, 717 Tu, R...... 67, 441 Voigtmann, T...... 154 Whitaker, K. A...... 153 Yang, Y.-J...... 521 Tucker, C...... 471 Vollmer, D...... 51 White, I. M...... 172 Yao, J...... 61 Tufenkji, N...... 168 Vuong, S. M...... 260 White, J. C...... 373 Yao, L...... 144 Tunnacliff e, A...... 13 Vutukuri, H...... 96 Whitmer, J...... 641 Yaraghi, N...... 481 Turner, K. T...... 400 Wagner, N...... 548 Whitmer, J. K...... 10 Yarlagadda, S...... 666 Turner, N. W...... 583 Wagner, N. J. ....12, 85, 265, Widmer-Cooper, A...... 201 Yarzebinski, J. S...... 46 Tyagi, M...... 87 ...... 299, 327, 568, 647, 679 Wijtmans, S...... 135, 624 Ye, S...... 707 Uchida, N...... 346 Wåhlander, M...... 594 Wilhelm, M. J...... 661 Ye, X...... 599 Uhlig, M...... 234 Wålinder, M. E...... 572 Williams, D...... 247, 598 Yeates, S. G...... 275 Ulm, F.-J...... 178 Walker, L...... 424 Williamson, J. J. ....106, 134 Yeganeh, M...... 488 Upadhyaya, N...... 477 Walker, L. M...... 63, 120, Wilson, B. K...... 375 Yellen, B...... 523 Urbani, P...... 478 ...... 260, 463 Winey, K. I...... 255, 295 Yeom, B...... 330 Vaccari, L...... 343, 445 Walker, S...... 39 Winter, H. H...... 495 Yezer, B. A...... 118 Vakarelski I. U...... 607a Wallace, N...... 462 Witschey, W...... 442 Yi, G...... 286 Valeriani, C...... 263 Walsh, P...... 293 Woldemariam, M. M. ...404 Yi, G.-R...... 116 Vallamkondu, J...... 699 Walters, R. M...... 108 Wolkenhauer, M...... 433 Yi, S...... 612 Valle, R. P...... 238, 384 Walz, J. Y...... 20 Wong, D...... 10, 69 Yiacoumi, S...... 42, 44, 128 Vallée, F...... 217 Wan, F...... 16 Wong, S...... 508 Yip, S...... 178 van Anders, G...... 289, Wandlowski, T...... 484 Woodka, A...... 351 Yodh, A...... 394, 667 ...... 291, 292 Wanekaya, A. K...... 725 Woolston, P...... 639 Yodh, A. G...... 56, 147, van Blaaderen, A. ....96, 131 Wang, A...... 111, 210 Wright, P. M...... 668 ...... 396, 638 van Dalen, G...... 686 Wang, C...... 110, 603 Wu, B...... 665 Yoon, H...... 156, 326 van der Stam, W...... 695 Wang, D...... 247 Wu, C...... 360, 592 Yoon, R.-H...... 111, 227 van de Ven, T...... 168 Wang, G...... 302, 712 Wu, D...... 267 Yossifon, G...... 121, 184 van Duijneveldt, J...... 408, Wang, H...... 474, 541 Wu, D. T...... 279, 715 Youn, S...... 683 ...... 639 Wang, J...... 385 Wu, G...... 557 Young, M. J...... 297 van Hecke, M...... 393 Wang, L...... 362, 401 Wu, H...... 367, 707 Young, T...... 720 Van Hooghten, R...... 190 Wang, L.-P...... 689 Wu, J...... 474 Younger, J. G...... 349 van Ravensteijn, B. G. ...216 Wang, S...... 266, 267, 279, Wu, K...... 561 Yu, H. Y...... 448, 643 van Roij, R...... 695 ...... 347, 435, 493, 715 Wu, N...... 266, 267, 279, Yu, L...... 195, 540 Varanasi, K. ...223, 226, 652 Wang, W.-N...... 192 ...... 435, 493, 532, 715 Yu, Y...... 195, 540 Vargo, K...... 235 Wang, X...... 641, 654, 698 Wu, T...... 250, 384 Yuan, F...... 347, 709 Veen, S...... 686 Wang, Y...... 27, 300, Wu, Y...... 257, 313, 661 Yuen, F...... 13 Velegol, D...... 50, 122, 185 ...... 564, 651, 724 Wunder, S...... 541 Yun, H...... 726 Velev, O...... 368 Wanka, S...... 433 Wyart, M...... 54 Zaccone, A...... 23, 479, 495 Velev, O. D. ...101, 177, 187, Ward, M...... 271 Wyss, H. M...... 25 Zacharia, N. S...... 91 ...... 234, 264, 490, 526, Ward, M. D...... 597 Xi, A...... 26 Zaki, A. A...... 442 ...... 535, 626, 727 Wasan, D. T...... 47, 703 Xia, Y...... 412, 413 Zamponi, F...... 478 Velikov, K. P...... 166, 187, Washburn, N...... 464 Xiong, R...... 324 Zappone, B...... 589 ...... 490, 535, 686 Watson, M...... 13 Xu, B...... 409, 661 Zarket, B...... 601 Vennemann, T...... 586 Wayu, M. B...... 725 Xu, T...... 466 Zarket, B. C...... 180 Venzmer, J...... 654 Weck, M...... 27 Xu, W...... 60, 653, 656 Zazyczny, J...... 94 Vermant, J...... 190, 422 Wee, B...... 611 Xu, X...... 428 Zell, Z. A...... 423 Versluis, P...... 686 Weeks, E. R...... 476 Xu, Y...... 56, 394, 667 Zeng, J...... 661 Vethamuthu, M. S...... 680 Wei, W.-S...... 638 Xu, Z...... 362, 655 Zeng, Y...... 535 Vidal, G. C...... 505 Wei, Z...... 678 Yamani, J...... 129 Zenk, J...... 242 Viescas, A. J...... 726 Weigandt, K. M...... 619 Yan, C...... 675 Zeravcic, Z...... 437 Vikesland, P...... 40 Weigandt, K...... 83 Yan, J...... 5 Zhang, A...... 371 Vilinska, A...... 389 Weik, B...... 615 Yan, T...... 104 Zhang, D...... 551 Vinarov, Z...... 517 Weitz, D. A...... 1, 133, 668 Yang, E.-H...... 60 Zhang, H...... 45, 47, 330

222 223 : Zhang, J...... 5, 230 NOTES Zhang, L...... 551, 625 Zhang, Q...... 104 Zhang, S...... 252 Zhang, W...... 138 Zhang, X...... 104, 307, ...... 362, 694 Zhang, Y...... 30, 90, 138, ...... 293, 296, 304, 429, 474 Zhang, Z...... 56 Zhao, H...... 267, 279, ...... 532, 715 Zhao, J...... 225, 571, 649 Zhao, L...... 612 Zhao, Y...... 205 Zheng, S...... 694 Zheng, W...... 302, 689, 712 Zheng, X...... 27 Zhong, X...... 271, 597 Zhou, Y...... 365 Zhu, C...... 228 Zhu, H...... 662, 663 Zhu, X...... 521 Zhu, Y...... 198 Zhulina, E...... 68 Ziegler, K. J...... 683 Zimmerman, J. B...... 129 Zuo, Y. Y...... 104, 238, ...... 307, 384

224 225

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College House 32nd St 32nd

Philadelphia Free Library Class of 1925 33rd St 33rd

South St. 34th St 34th Sansom Street

is just west of 38th Street,

36th St 36th 37th St 37th

Spruce St. Market St. Chestnut St. Walnut St. 38th St 38th Rodin College House Street, or and can be accessed from either Walnut The walking bridge that connects Spruce Street. this area of campus to the conference venues, is under construction, and not accessible. 226 A Hill Square B entrance interior path Singh 3201 Nanotechnology Walnut Hill Garage College LRSM 26 House Glandt Levine Forum Hall Skirkanich

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C Walnut Street entrance Annenberg Addams Dietrich School Auditorium Hall Graduate Van Pelt Annenberg Library Library Center Café '58 Amado Annenberg PPC Meyerson Hall balcony Colonial The Penn

Irvine Auditorium ARCH ocust Ctr F F ouse Blanche P. Levy Park

Fisher Fine Arts Bodek Hall of Library 34th Street Lounge Flags Steinberg Hall College Hall (1st floor & Dietrich Hall basement) First Floor Cohen Steinhardt Hall Perelman Quad Plaza Terrace Wynn Commons Room Irvine Houston Hall Houston Wistar Houston Hall Auditorium Golkin Class Institute Ben of ’49 Williams Hall Franklin

Second Floor Second Spruce Street N

Market St Chestnut St Walnut St to Center City

River Schuylkill

30th St. Station

30th St 30th

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31st St 31st 32nd St 32nd Singh Nanotechnology Nanotechnology Skirkanich Hall Levine Hall Towne Building arking

DRL David Rittenhouse Laboratory Laboratory P LRSM 33rd St 33rd

South St. arking P Penn Museum Museum Map B arking

Penn Tower Hotel Hotel

P 34th St 34th White Dog Cafe New Deck Tavern Starbucks    Irvine Auditorium Auditorium food court court Hall Hall Meyerson restaurants Hospital CVS Hall Hall Hall Hall Sansom Street College College Houston arking

Sheraton Hotel Hotel P Hall Hall 36th St 36th Cohen Cohen Bookstore Locust Walk

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P 38th St 38th Map A campus map Rodin Rodin House House College College