Curriculum Vitae. David J. Norris

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1 June 1, 2016 Curriculum Vitae David J. Norris Office Address: Optical Materials Engineering Laboratory Institute of Process Engineering Department of Mechanical and Process Engineering ETH Zurich voice: Leonhardstrasse 21, LEE P 210 fax: Zurich, Switzerland dnorris@ethz.ch Personal Information Born: 1968; St. Louis, Missouri USA. Citizenship: USA Marital Status: Married, three children. Societies: Member of AAAS, ACS, APS, MRS, and Phi Beta Kappa. Education Ph.D., Physical Chemistry, Massachusetts Institute of Technology, Cambridge, USA B.S., Chemistry, The University of Chicago, Chicago, USA. Professional Appointments Department Head, Department of Mechanical and Process Engineering, Swiss Federal Institute of Technology (ETH), Zurich, Switzerland Professor of Materials Engineering, Swiss Federal Institute of Technology (ETH), Zurich, Switzerland Professor of Chemical Engineering and Materials Science, University of Minnesota, Minneapolis, USA Director of Graduate Studies in Chemical Engineering, University of Minnesota, Minneapolis, USA Associate Professor of Chemical Engineering and Materials Science, University of Minnesota, Minneapolis, USA Research Scientist, NEC Research Institute, Princeton, USA Postdoctoral Fellow under Prof. W. E. Moerner, University of California, San Diego, investigating Single Molecules Coupled to Optical Microcavities Predoctoral Fellow under Prof. M. G. Bawendi, MIT, investigating the Optical Properties of Semiconductor Nanocrystals (Quantum Dots). Honors and Awards 2015 Credit Suisse Award for Best Teaching (selected by students as best teacher at ETH) Max Rössler Prize (highest research prize at ETH) European Research Council (ERC) Advanced Grant Awardee Golden Owl Award for Excellent Teaching (selected by students as best in Department) Debye Lecturer, Utrecht University Elected as Fellow of the American Association for the Advancement of Science (AAAS) Elected as Fellow of the American Physical Society (APS) Alexander von Humboldt Research Fellowship National Science Foundation Postdoctoral Fellowship in Chemistry Arthur D. Little Graduate Student Fellowship in Chemistry National Science Foundation Predoctoral Fellowship in Chemistry ICI Americas Summer Fellowship Illinois State Honor Scholarship.

2 Professional Activities Editorial Board Member, Nano Letters Editorial Board Member, ACS Photonics Member of the Tenure Committee of ETH Zurich Member of the Research Commission of ETH Zurich Member of the Sinergia Evaluation Panel, Swiss National Science Foundation Symposium Organizer, Colloidal Nanoparticles for Electronic Applications Light Emission, Detection, Photovoltaics, and Transport, the Materials Research Society (MRS) meeting, November 2009; Boston, USA Chair (2009) and Vice-Chair (2007), Gordon Research Conference on Clusters, Nanocrystals, and Nanostructures Planning Group Member, 10th Annual Japanese American Kavli Frontiers of Science Symposium, sponsored by the Japan Society for the Promotion of Science and the U.S. National Academy of Sciences, December 2007; Kanagawa, Japan Consultant, Mitsubishi Chemical Corporation, Yokohama, Japan Co-Chair, 1 st Workshop on the Doping of Nanostructures, January 2006; Naval Research Laboratory, Washington D.C., USA Scientific Advisory Board Member, Innovalight, Inc., Santa Clara, USA External Advisory Board Member, the NSF-sponsored Center for Biological and Environmental Nanotechnology (CBEN) at Rice University, Houston, USA Advisory Board Member, the ACS Petroleum Research Fund (PRF), Washington, D.C., USA Symposium Organizer, Microphotonics, Nanophotonics, and Photonic Crystals, the Materials Research Society meeting, April 2003; San Francisco, USA Editorial Board Member, Chemistry of Materials Executive Committee Member, the Physical Chemistry Division of the American Chemical Society (ACS) Editor, Photonics and Nanostructures Consultant, 3M Company, St. Paul, USA Symposium Organizer, Physics and Technology of Semiconductor Quantum Dots, the Materials Research Society (MRS) meeting, November 2002; Boston, USA Sub-Committee Member, Physics and Optical Diagnostics of Nanostructures, the International Conference on Quantum Electronics, June 2002; Moscow, Russia Sub-Committee Member, Fundamental Optics in Periodic and Random Media, the Quantum Electronics and Laser Science Conference (QELS), May 2002; Baltimore, USA Consultant, NEC Research Institute, Princeton, USA Sub-Committee Member, Nano-Optics, the Quantum Electronics and Laser Science Conference (QELS), May 2001; Baltimore, USA Symposium Organizer, Chemical Approaches to Photonic Crystals, the American Chemical Society (ACS) meeting, April 2001; San Diego, USA Editorial Board Member, Advanced Functional Materials Symposium Organizer, Non-Lithographic & Lithographic Methods for Nanofabrication, the Materials Research Society (MRS) meeting, November 2000; Boston, USA. Ad Hoc Scientific Review Panels 2015 International Assessment Committee Member, TOP-PUNT Proposals, Netherlands Organisation for Scientific Research (NWO) International Jury Member, Francqui Prize, Francqui Foundation External Technical Evaluator, Detection Science Review, Defense Threat Reduction Agency, US Department of Defense Proposal Review Panel Member, National Science Foundation, Nanomanufacturing Proposal Review Panel Member, National Science Foundation, Membranes STTR Phase I. 2

3 2009 Proposal Review Panel Member, National Science Foundation, Membranes SBIR Phase I Proposal Review Panel Member, Global Climate and Energy Project (GCEP), Stanford University, Palo Alto, USA Site Review Panel Member, Science Foundation Ireland program on Silicon Based Photonic Crystals at the Tyndall National Institute, University College Cork, Ireland Proposal Review Panel Member, National Science Foundation, Emerging Models and Technologies in Computation (EMT), Nanoscience, Self-Assembly and Bimolecular Computation Proposal Review Panel Member, Department of Energy, Office of Basic Energy Sciences, Hydrogen Fuel Initiative International Evaluation Panel Member, Deutsche Forschungsgemeinschaft (DFG), German priority program on Photonic Crystals Proposal Review Panel Member, National Science Foundation, Emerging Models and Technologies in Computation (EMT), Nanoscience, Self-Assembly and Bimolecular Computation Site Review Panel Member, National Science Foundation funded Integrative Education and Research Graduate Traineeship (IGERT) program on Advanced Optical Materials at the University of California at Santa Barbara, USA International Evaluation Panel Member, Fundamenteel Onderzoek der Materie (FOM), Dutch priority program on Photon Physics in Optical Materials. Publications 1. The Optical Chirality Flux as a Useful Far-Field Probe of Chiral Near Fields, L. V. Poulikakos, P. Gutsche, K. M. McPeak, S. Burger, J. Niegemann, C. Hafner, and D. J. Norris; ACS Photonics (submitted). 2. Charge Trapping Defects in CdSe Nanocrystal Quantum Dots, A. J. Almeida, A. Sahu, D. J. Norris, M. S. Brandt, M. Stutzmann, and R. N. Pereira (submitted). 3. Full-Spectrum Flexible Color Printing at the Diffraction Limit, P. Richner, P. Galliker, T. Lendenmann, S. J. P. Kress, D. Kim, D. J. Norris, and D. Poulikakos; ACS Photonics (submitted). 4. Printable Nanoscopic Metamaterial Absorbers and Images with Diffraction-Limited Resolution, P. Richner, H. Eghlidi, S. J. P. Kress, M. Schmid, D. J. Norris, and D. Poulikakos; ACS Appl. Mater. Interfaces 8, (2016). 5. Observation of Thermal Beaming from Tungsten and Molybdenum Bull s Eyes, J. H. Park, S. E. Han, P. Nagpal, and D. J. Norris; ACS Photonics 3, 494 (2016). 6. Charge Effects and Nanoparticle Pattern Formation in Electrohydrodynamic NanoDrip Printing of Colloids, P. Richner, S. J. P. Kress, D. J. Norris, and D. Poulikakos; Nanoscale 8, 6028 (2016). 7. Substrate Selection for Full Exploitation of Organic Semiconductor Films: Epitaxial Rubrene on β- Alanine Single Crystals, S. Trabattoni, L. Raimondo, M. Campione, D. Braga, V. C. Holmberg, D. J. Norris, M. Moret, A. Ciavatti, B. Fraboni, and A. Sassella; Adv. Mater. Interf. 2, (2015). 8. Template-Stripped Tunable Plasmonic Devices on Elastomeric and Rollable Substrates, D. Yoo, T. Johnson, S. Cherukulappurath, D. J. Norris, and S.-H. Oh; ACS Nano 9, (2015). 9. Ultraviolet Plasmonic Chirality from Colloidal Aluminum Nanoparticles Exhibiting Charge- Selective Protein Detection, K. M. McPeak, C. D. van Engers, S. Bianchi, A. Rossinelli, L. 3

4 Poulikakos, L. Bernard, S. Herrmann, D. K. Kim, S. Burger, M. Blome, S. V. Jayanti, and D. J. Norris; Adv. Mater. 27, 6244 (2015). 10. Wedge Waveguides and Resonators for Quantum Plasmonics, S. J. P. Kress, F. V. Antolinez, P. Richner, S. V. Jayanti, D. K. Kim, F. Prins, A. Riedinger, M. P. C. Fischer, S. Meyer, K. M. McPeak, D. Poulikakos, and D. J. Norris; Nano Lett. 15, 6267 (2015). 11. Localization of Ag Dopant Atoms in CdSe Nanocrystals by Reverse Monte Carlo Analysis of EXAFS Spectra, A. Kompch, A. Sahu, C. Notthoff, F. Ott, D. J. Norris, and M. Winterer; J. Chem Phys. C 119, (2015). 12. Low-Temperature Enhancement of Plasmonic Performance in Silver Films, S. V. Jayanti, J. H. Park, A. Dejneka, D. Chvostova, K. M. McPeak, X. Chen, S.-H. Oh, and D. J. Norris; Opt. Mater. Express 5, 1147 (2015). 13. Plasmonic Films Can Easily Be Better: Rules and Recipes, K. M. McPeak, S. V. Jayanti, S. J. P. Kress, S. Meyer, S. Iotti, A. Rossinelli, and D. J. Norris; ACS Photonics 2, 326 (2015). 14. Broadband Up-Conversion at Sub-Solar Irradiance: Triplet-Triplet Annihilation Boosted by Fluorescent Semiconductor Nanocrystals, A. Monguzzi, D. Braga, M. Gandini, V. C. Holmberg, D. K. Kim, A. Sahu, D. J. Norris, and F. Meinardi; Nano Lett. 14, 6644 (2014). 15. Microscopic Theory of Cation Exchange in CdSe Nanocrystals, F. D. Ott, L. L. Spiegel, D. J. Norris, and S. C. Erwin; Phys. Rev. Lett. 113, (2014). 16. Near-Field Light Design with Colloidal Quantum Dots for Photonics and Plasmonics, S. J. P. Kress, P. Richner, S. V. Jayanti, P. Galliker, D. K. Kim, D. Poulikakos, and D. J. Norris; Nano Lett. 14, 5827 (2014). 17. Back-Reflector Design in Thin-Film Silicon Solar Cells by Rigorous 3D Light Propagation Modeling, M. Blome, K. McPeak, S. Burger, F. Schmidt, and D. Norris; COMPEL 33, 1282 (2014). 18. Complex Chiral Colloids and Surfaces via High-Index Off-Cut Silicon, K. M. McPeak, C. D. van Engers, M. Blome, J. H. Park, S. Burger, M. A. Gosalvez, A. Faridi, Y. R. Ries, A. Sahu, and D. J. Norris; Nano Lett. 14, 2934 (2014). 19. Solid-Phase Flexibility in Ag 2 Se Nanocrystals, A. Sahu, D. Braga, O. Waser, M. S. Kang, D. Deng, and D. J. Norris; Nano Lett. 14, 115 (2014). 20. Fabrication of Smooth Patterned Structures of Refractory Metals, Semiconductors, and Oxides via Template Stripping, J. H. Park, P. Nagpal, K. M. McPeak, N. C. Lindquist, S.-H. Oh, and D. J. Norris; ACS Appl. Mater. Interfaces 5, 9701 (2013). 21. Plasmonic Nanofocusing With a Metallic Pyramid and an Integrated C-Shaped Aperture, N. C. Lindquist, T. W. Johnson, P. Nagpal, D. J. Norris, and S.-H. Oh; Sci. Rep. 3, 1857 (2013). 22. Imaging Impurities in Semiconductor Nanostructures, V. C. Holmberg, J. R. Helps, K. A. Mkhoyan, and D. J. Norris; Chem. Mater. 25, 1332 (2013). 23. Influence of Silver Doping on Electron Transport in Thin Films of PbSe Nanocrystals, M. S. Kang, A. Sahu, C. D. Frisbie, and D. J. Norris; Adv. Mater. 25, 725 (2013). 24. Linewidth-Optimized Extraordinary Optical Transmission in Water via Template-Stripped Metallic Nanohole Arrays with Tunable Hole Sizes, S. H. Lee, T. W. Johnson, N. C. Lindquist, H. Im, D. J. Norris, and S.-H. Oh; Adv. Funct. Mater. 22, 4439 (2012). 4

5 25. Getting Moore from Solar Cells, D. J. Norris and E. S. Aydil; Science 338, 625 (2012). 26. Single-Crystalline Silver Films for Plasmonics, J. H. Park, P. Ambwani, M. Manno, N. C. Lindquist, P. Nagpal, S.-H. Oh, C. Leighton, and D. J. Norris; Adv. Mater. 24, 3988 (2012). 27. Electronic Impurity Doping in CdSe Nanocrystals, A. Sahu, M. S. Kang, A. Kompch, C. Notthoff, A. W. Wills, D. Deng, M. Winterer, C. D. Frisbie, and D. J. Norris; Nano Lett. 12, 2587 (2012). 28. Quantum Confinement in Silver Selenide Semiconductor Nanocrystals, A. Sahu, A. Khare, D. Deng, and D. J. Norris; Chem. Comm. 48, 5458 (2012). 29. Calculation of the Lattice Dynamics and Raman Spectra of Copper Zinc Tin Chalcogenides and Comparison to Experiments, A. Khare, B. Himmetoglu, M. Johnson, D. J. Norris, M. Cococcioni, E. S. Aydil; J. Appl. Phys. 111, (2012). 30. Engineering Metallic Nanostructures of Plasmonics and Nanophotonics, N. C. Lindquist, P. Nagpal, K. M. McPeak, D. J. Norris, and S.-H. Oh; Rep. Prog. Phys. 75, (2012). 31. Improved Dielectric Functions in Metallic Films Obtained via Template Stripping, J. H. Park, P. Nagpal, S.-H. Oh, and D. J. Norris; Appl. Phys. Lett. 100, (2012). 32. Synthesis and Characterization of Al- and In-doped CdSe Nanocrystals, A. W. Wills, M. S. Kang, K. M. Wentz, S. E. Hayes, A. Sahu, W. L. Gladfelter, and D. J. Norris; J. Mater. Chem. 22, 6335 (2012). 33. Imaging Invisible Dopant Atoms Inside Semiconductor Nanocrystals, A. A. Gunawan, K. A. Mkhoyan, A. W. Wills, M. G. Thomas, and D. J. Norris; Nano Lett. 11, 5553 (2011). 34. Impact Dynamics of Colloidal Quantum Dot Solids, L. Qi, P. H. McMurry, D. J. Norris, and S. L. Girshick; Langmuir 27, (2011). 35. Size Control and Quantum Confinement in Cu 2 ZnSnS 4 Nanocrystals, A. Khare, D. J. Norris, and E. S. Aydil; Chem. Commun. 47, (2011). 36. Size- and Temperature-Dependent Charge Transport in PbSe Nanocrystal Thin Films, M. S. Kang, A. Sahu, D. J. Norris, and C. D. Frisbie; Nano Lett. 11, 3887 (2011). 37. Monolithic Integration of Continuously Tunable Plasmonic Nanostructures, N. C. Lindquist, T. W. Johnson, D. J. Norris, and S.-H. Oh; Nano Lett. 11, 3526 (2011). 38. Template-Stripped Smooth Ag Nanohole Arrays with Silica Shells for Surface Plasmon Resonance Biosensing, H. Im, S. H. Lee, N. J. Wittenberg, T. W. Johnson, N. C. Lindquist, P. Nagpal, D. J. Norris, and S.-H. Oh; ACS Nano 5, 6244 (2011). 39. Fabrication of Carbon/Refractory Metal Nanocomposites as Thermally Stable Metallic Photonic Crystals, P. Nagpal, D. P. Josephson, J. DeWilde, D. J. Norris, and A. Stein; J. Mater. Chem. 21, (2011). 5

6 40. Facile Synthesis of Silver Chalcogenide (Ag 2 E, E=Se, S, and Te) Semiconductor Nanocrystals, A. Sahu, L. Qi, M. S. Kang, D. Deng, and D. J. Norris; J. Am. Chem. Soc. 133, 6509 (2011). 41. Effect of Different Manganese Precursors on the Doping Efficiency in ZnSe Nanocrystals, L. J. Zu, A. W. Wills, T. A. Kennedy, E. R. Glaser, and D. J. Norris; J. Phys. Chem. C 114, (2010). 42. Size-Dependent Electrical Transport in CdSe Nanocrystal Thin Films, M. S. Kang, A. Sahu, D. J. Norris, and C. D. Frisbie; Nano Lett. 10, 3727 (2010). 43. Thermally Degradable Ligands for Nanocrystals, A. W. Wills, M. S. Kang, A. Khare, W. L. Gladfelter, and D. J. Norris; ACS Nano 4, 4523 (2010). 44. Hot Electron Transfer from Semiconductor Nanocrystals, W. A. Tisdale, K. J. Williams, B. C. Timp, D. J. Norris, E. S. Aydil, and X.-Y. Zhu; Science 328, 1543 (2010). 45. Influence of Atmospheric Gases on the Electrical Properties of PbSe Quantum-Dot Films, K. S. Leschkies, M. S. Kang, E. S. Aydil, and D. J. Norris; J. Phys. Chem. C 114, 9988 (2010). 46. Three-Dimensional Plasmonic Nanofocusing, N. C. Lindquist, P. Nagpal, A. Lesuffleur, D. J. Norris, and S.-H. Oh; Nano Lett. 10, 1369 (2010). 47. Beaming Thermal Emission from Hot Metallic Bull s Eyes, S. E. Han and D. J. Norris; Opt. Express 18, 4829 (2010). 48. Thermal Emission Control by Selective Heating of Periodic Structures, S. E. Han and D. J. Norris; Phys. Rev. Lett. 104, (2010). 49. In-Situ High Temperature TEM Analysis of Sintering in Nanostructured Tungsten and Tungsten- Molybdenum Alloy Photonic Crystals, N. R. Denny, F. Li, D. J. Norris, and A. Stein; J. Mater. Chem. 20, 1538 (2010). 50. Micropattern Deposition of Colloidal Semiconductor Nanocrystals by Aerodynamic Focusing, L. Qi, P. H. McMurry, D. J. Norris, and S. L. Girshick; Aerosol Sci. Tech. 44, 55 (2010). 51. Nanowire-Quantum-Dot Solar Cells and the Influence of Nanowire Length on the Charge Collection Efficiency, K. S. Leschkies, A. G. Jacobs, D. J. Norris, and E. S. Aydil; Appl. Phys. Lett. 95, (2009). 52. Solar Cells Based on Junctions between Colloidal PbSe Nanocrystals and Thin ZnO Films, K. S. Leschkies, T. J. Beatty, M. S. Kang, D. J. Norris, and E. S. Aydil; ACS Nano 3, 3638 (2009). 53. High Carrier Densities Achieved at Low Voltages in Ambipolar PbSe Nanocrystal Thin-Film Transistors, M. S. Kang, J. Lee, D. J. Norris, and C. D. Frisbie; Nano Lett. 9, 3848 (2009). 54. The Role of Stress in the Time-Dependent Optical Response of Silicon Photonic Band Gap Crystals, H. Wei, D. F. Underwood, S. E. Han, D. A. Blank, and D. J. Norris; Appl. Phys. Lett. 95, (2009). 55. Ultra-Smooth Patterned Metals for Plasmonics and Metamaterials, P. Nagpal, N. C. Lindquist, S.-H. Oh, and D. J. Norris; Science 325, 594 (2009). 56. Strong Electronic Coupling in Two-Dimensional Assemblies of Colloidal PbSe Quantum Dots, K. J. Williams, W. A. Tisdale, D. J. Norris, E. S. Aydil, and X.-Y. Zhu; ACS Nano 3, 1532 (2009). 6

7 57. Mechanistic Principles of Colloidal Crystal Growth by Evaporation-Induced Convective Steering, D. D. Brewer, J. Allen, M. R. Miller, J. M. de Santos, S. Kumar, D. J. Norris, M. Tsapatsis, and L. E. Scriven; Langmuir 24, (2008). 58. Efficient Low-Temperature Thermophotovoltaic Emitters from Metallic Photonic Crystals, P. Nagpal, S. E. Han, A. Stein, and D. J. Norris; Nano Lett. 8, 3238 (2008). 59. Electron Dynamics at the ZnO ( ) Surface, W. A. Tisdale, M. Muntwiler, D. J. Norris, E. S. Aydil, and X.-Y. Zhu; J. Phys. Chem. B 112, (2008). 60. Comment on Self-Purification in Semiconductor Nanocrystals, M.-H. Du, Al. L. Efros, S. C. Erwin, and D. J. Norris; Phys. Rev. Lett. 100, (2008). 61. Doped Nanocrystals, D. J. Norris, Al. L. Efros, and S. C. Erwin; Science 319, 1776 (2008). 62. Thermally Stable Organic-Inorganic Hybrid Photoresists for Fabrication of Photonic Band Gap Structures with Direct Laser Writing, Y. Jun, P. Nagpal, and D. J. Norris; Adv. Mater. 20, 606 (2008). 63. The Role of Fluid Flow and Convective Steering During the Assembly of Colloidal Crystals, D. Gasperino, L. Meng, D. J. Norris, and J. J. Derby; J. Cryst. Growth 310, 131 (2008). 64. Ultrafast Optical Switching of Three-Dimensional Si Inverse Opal Photonic Band Gap Crystals, T. G. Euser, H. Wei, J. Kalkman, Y. Jun, A. Polman, D. J. Norris, and W. L. Vos; J. Appl. Phys. 102, (2007). 65. Effects of Thermal Processes on the Structure of Monolithic Tungsten and Tungsten Alloy Photonic Crystals, N. R. Denny, S. E. Han, D. J. Norris, and A. Stein; Chem. Mater. 19, 4563 (2007). 66. Tailoring Self-Assembled Metallic Photonic Crystals for Modified Thermal Emission, S. E. Han, A. Stein, and D. J. Norris; Phys. Rev. Lett. 99, (2007). 67. Photosensitization of ZnO Nanowires with CdSe Quantum Dots for Photovoltaic Devices, K. S. Leschkies, R. Divakar, J. Basu, E. Enache-Pommer, J. E. Boercker, C. B. Carter, U. R. Kortshagen, D. J. Norris, and E. S. Aydil; Nano Lett. 7, 1793 (2007). 68. Materials Science: Silicon Life Forms, D. J. Norris; Nature 446, 146 (2007). 69. Photonic Crystals: A View of the Future, D. J. Norris; Nature Mater. 6, 177 (2007). 70. Quantifying Stacking Faults and Vacancies in Thin Convectively Assembled Colloidal Crystals, H. Wei, L. Meng, Y. Jun, and D. J. Norris; Appl. Phys. Lett. 89, (2006). 71. The Role of Thickness Transitions in Convective Assembly, L. Meng, H. Wei, B. Wiley, A. Nagel, L. E. Scriven, and D. J. Norris; Nano Lett. 6, 2249 (2006). 72. Colloidal Crystal Layers of Hexagonal Nanoplates by Convective Assembly, J. A. Lee, L. Meng, D. J. Norris, L. E. Scriven, and M. Tsapatsis; Langmuir 22, 5217 (2006). 73. The Impact of Ripening on Manganese-Doped ZnSe Nanocrystals, L. Zu, D. J. Norris, T. A. Kennedy, S. C. Erwin, and Al. L. Efros; Nano Lett. 6, 334 (2006). 7

8 74. Tailoring Air Defects in Self-Assembled Photonic Band Gap Crystals, Y. Jun, C. A. Leatherdale, and D. J. Norris; Adv. Mater. 17, 1908 (2005). 75. Doping Semiconductor Nanocrystals, S. C. Erwin, L. Zu, M. I. Haftel, Al. L. Efros, T. A. Kennedy, and D. J. Norris; Nature 436, 91 (2005). 76. Opaline Photonic Crystals: How Does Self-Assembly Work? D. J. Norris, E. G. Arlinghaus, L. Meng, R. Heiny, and L. E. Scriven; Adv. Mater. 16, 1393 (2004). 77. Avoiding Cracks in Self-Assembled Photonic Band Gap Crystals, A. A. Chabanov, Y. Jun, and D. J. Norris; Appl. Phys. Lett. 84, 3573 (2004). 78. Selective Excitation of Erbium in Silicon-Infiltrated Silica Colloidal Photonic Crystals, J. Kalkman, E. de Bres, A. Polman, Y. Jun, D. J. Norris, D. C. t Hart, J. P. Hoogenboom, and A. van Blaaderen; J. Appl. Phys. 95, 2297 (2004). 79. Electronic Structure in Semiconductor Nanocrystals: Optical Experiment, D. J. Norris; in Semiconductor and Metal Nanocrystals: Synthesis and Electronic and Optical Properties, edited by V. I. Klimov, New York: Marcel Decker (2004). 80. Quantum Dot Photonic Crystals, D. J. Norris and Yu. A. Vlasov; in Semiconductor Nanocrystals, From Basic Principles to Applications, edited by Al. L. Efros, D. J. Lockwood, and L. Tsybeskov, New York: Kluwer (2003). 81. In Vivo Imaging of Quantum Dots Encapsulated in Phospholipid Micelles, B. Dubertret, P. Skourides, D. J. Norris, V. Noireaux, A. H. Brivanlou, and A. Libchaber; Science 298, 1759 (2002). 82. Device Physics: Defective Promise in Photonics, T. A. Taton and D. J. Norris; Nature 416, 685 (2002). 83. Future Directions in Solid State Chemistry: Report of the NSF-Sponsored Workshop, R. J. Cava, F. J. DiSalvo, L. E. Brus, K. R. Dunbar, C. B. Gorman, S. M. Haile, L. V. Interrante, J. L. Musfeldt, A. Navrotsky, R. G. Nuzzo, W. E. Pickett, A. P. Wilkinson, C. Ahn, J. W. Allen, P.C. Burns, G. Ceder, C. E. D. Chidsey, W. Clegg, E. Coronado, H. Dai, M. W. Deem, B. S. Dunn, G. Galli, A. J. Jacobson, M. Kanatzidis, W. Lin, A. Manthiram, M. Mrksich, D. J. Norris, A. J. Nozik, X. Peng, C. Rawn, D. Rolison, D. J. Singh, B. H. Toby, S. Tolbert, U. B. Wiesner, P. M. Woodward, and P. Yang; Progress in Solid State Chemistry 30, 1 (2002). 84. Doping and Charging in Colloidal Semiconductor Nanocrystals, M. Shim, C. Wang, D. J. Norris, and P. Guyot-Sionnest; MRS Bulletin 26, 1005 (2001). 85. New Aspects of Nanocrystal Research, edited by L. M. Liz-Marzan and D. J. Norris; special issue of the MRS Bulletin, Vol. 26, No. 12 (2001). 86. On-Chip Natural Assembly of Silicon Photonic Bandgap Crystals, Yu. A. Vlasov, X.-Z. Bo, J. C. Sturm, and D. J. Norris; Nature 414, 289 (2001). 87. Nonlithographic and Lithographic Methods of Nanofabrication From Ultralarge-Scale Integration to Photonics to Molecular Electronics, edited by L. Merhari, J. A. Rogers, A. Karim, D. J. Norris, and Y. Xia; Proc. Mat. Res. Soc. 636 (2001). 8

9 88. The Complete Photonic Band Gap in Inverted Opals: How Can We Prove It Experimentally? D. J. Norris and Yu. A. Vlasov; in Photonic Crystals and Light Localization in the 21st Century, edited by C. M. Soukoulis, Dordrecht: Kluwer Academic (2001). 89. Chemical Approaches to Three-Dimensional Semiconductor Photonic Crystals, D. J. Norris and Yu. A. Vlasov; Adv. Mater. 13, 371 (2001). 90. High-Quality Manganese-Doped ZnSe Nanocrystals, D. J. Norris, N. Yao, F. T. Charnock, and T. A. Kennedy; Nano Letters 1, 3 (2001). 91. Conjugated-Polymer Photonic Crystals, M. Deutsch, Yu. A. Vlasov, and D. J. Norris; Adv. Mater. 12, 1176 (2000). 92. Single-Domain Spectroscopy of Self-Assembled Photonic Crystals, Yu. A. Vlasov, M. Deutsch, and D. J. Norris; Appl. Phys. Lett. 76, 1627 (2000). 93. Semiconductor Quantum Dots, edited by S. C. Moss, D. Ila, H. W. Lee, and D. J. Norris; Proc. Mat. Res. Soc. 571 (2000). 94. Synthesis of Photonic Crystals for Optical Wavelengths from Semiconductor Quantum Dots, Yu. A. Vlasov, N. Yao, and D. J. Norris; Adv. Mater. 11, 165 (1999). 95. Simultaneous Imaging of Individual Molecules Aligned Both Parallel and Perpendicular to the Optic Axis, R. M. Dickson, D. J. Norris, and W. E. Moerner; Phys. Rev. Lett. 81, 5322 (1998). 96. Excitation of a Single Molecule on the Surface of a Spherical Microcavity, D. J. Norris, M. Kuwata-Gonokami, and W. E. Moerner; Appl. Phys. Lett. 71, 297 (1997). 97. Optical Properties of Semiconductor Nanocrystals (Quantum Dots), D. J. Norris, M. G. Bawendi, and L. E. Brus; in Molecular Electronics, edited by J. Jortner and M. Ratner, Oxford: Blackwell Science (1997). 98. Single Molecule Spectroscopy and Quantum Optics in Solids, W. E. Moerner, R. M. Dickson, and D. J. Norris; in Advances in Atomic, Molecular, and Optical Physics 38, edited by B. Bederson and H. Walther, San Diego: Academic Press (1997). 99. Single Molecule Nanophotonics in Solids, W. E. Moerner, R. M. Dickson, and D. J. Norris; Mat. Sci. and Eng. B 48, 169 (1997) Single Molecules Solvated in Pores of Poly(acrylamide) Gels, R. M. Dickson, D. J. Norris, Y.-L. Tzeng, R. Sakowicz, L. S. B. Goldstein, and W. E. Moerner; Mol. Cryst. Liq. Cryst. 291, 31 (1996) Three-Dimensional Imaging of Single Molecules Solvated in Pores of Poly(acrylamide) Gels, R. M. Dickson, D. J. Norris, Y.-L. Tzeng, and W. E. Moerner; Science 274, 966 (1996) Photoluminescence Spectroscopy of Single CdSe Nanocrystallite Quantum Dots, S. A. Empedocles, D. J. Norris, and M. G. Bawendi; Phys. Rev. Lett. 77, 3873 (1996) Band Edge Exciton in Quantum Dots of Semiconductors with a Degenerate Valence Band: Dark and Light Exciton States, Al. L. Efros, M. Rosen, M. Kuno, M. Nirmal, D. J. Norris, and M. G. Bawendi; Phys. Rev. B 54, 4843 (1996) Size Dependence of Exciton Fine Structure in CdSe Quantum Dots, D. J. Norris, Al. L. Efros, M. Rosen, and M. G. Bawendi; Phys. Rev. B 53, (1996). 9

10 105. Measurement and Assignment of the Size-Dependent Optical Spectrum in CdSe Quantum Dots, D. J. Norris and M. G. Bawendi; Phys. Rev. B 53, (1996) Observation of the Dark Exciton in CdSe Quantum Dots, M. Nirmal, D. J. Norris, M. Kuno, M. G. Bawendi, Al. L. Efros, and M. Rosen; Phys. Rev. Lett. 75, 3728 (1995) Structure in the Lowest Absorption Feature of CdSe Quantum Dots, D. J. Norris and M. G. Bawendi; J. Chem. Phys. 103, 5260 (1995) Stark Spectroscopy of CdSe Nanocrystallites: The Significance of Transition Linewidths, A. Sacra, D. J. Norris, C. B. Murray, and M. G. Bawendi; J. Chem. Phys. 103, 5236 (1995) Measurement of the Size Dependent Hole Spectrum in CdSe Quantum Dots, D. J. Norris, A. Sacra, C. B. Murray, and M. G. Bawendi; Phys. Rev. Lett. 72, 2612 (1994) Synthesis and Characterization of Nearly Monodisperse CdE (E = S, Se, Te) Semiconductor Nanocrystallites, C. B. Murray, D. J. Norris, and M. G. Bawendi; J. Am. Chem. Soc. 115, 8706 (1993) Size-Dependent Spectroscopy and Photodynamics of Some II-VI Semiconductor Nanocrystallites (Quantum Dots), M. Nirmal, C. B. Murray, D. J. Norris, and M. G. Bawendi; Proc. SPIE - Int. Soc. Opt. Eng. 1861, 280 (1993) Synthesis and Structural Characterization of II-VI Semiconductor Nanocrystallites (Quantum Dots), C. B. Murray, M. Nirmal, D. J. Norris, and M. G. Bawendi; Z. Phys. D 26S, 231 (1993) Surface Electronic Properties of CdSe Nanocrystallites, M. Nirmal, C. B. Murray, D. J. Norris, and M. G. Bawendi; Z. Phys. D 26, 361 (1993) Size-Dependent Optical Spectroscopy of II-VI Semiconductor Nanocrystallites (Quantum Dots), D. J. Norris, M. Nirmal, C. B. Murray, A. Sacra, and M. G. Bawendi; Z. Phys. D 26, 355 (1993). Invited Talks and Presentations 1. Colloidal Quantum Dots in Extreme Electromagnetic Environments, invited talk presented at the Spring Meeting of the Materials Research Society (MRS); Phoenix, USA; March Colloidal Quantum Dots in Extreme Electromagnetic Environments, invited talk presented at Nanolight 2016; Benasque, Spain; March Quantum Dots on a Knife s Edge: Plasmonic Wedge Waveguides and Resonators with Integrated Quantum Emitters, invited seminar presented at the Physics Department of the University of Graz; Graz, Austria; November Plasmonic Wedge Waveguides and Resonators, invited talk presented at the European Science Foundation Workshop on Plasmon-NanoBioSense; Castelldefels, Spain; September Plasmonic Wedge Waveguides and Resonators, invited talk presented at the Frontiers in Nanophotonics Workshop at Monte Verita; Ascona, Switzerland; September Quantum-Dot Plasmonics, invited keynote presented at the 5th Molecular Materials Meeting (M3); Singapore; August

11 7. Quantum-Dot Plasmonics, invited keynote presented at the 36th Progress in Electromagnetics Research Symposium (PIERS 2015); Prague, Czech Republic; July Quantum-Dot Plasmonics, invited seminar presented at the Molecular Foundry at Berkeley Lab; Berkeley, USA; June Quantum-Dot Plasmonics, invited seminar presented at the Chemistry Department of the Hebrew University of Jerusalem; Jerusalem, Israel; June Plasmonic Wedge Waveguides and Resonators with Integrated Quantum Dots, invited talk presented at the 7th International Conference on Surface Plasmon Photonics (SPP7); Jerusalem, Israel; June Photon Energy Conversion with Semiconductor Nanocrystals, invited talk presented at the 27th Workshop on Quantum Solar Energy Conversion (Quantsol 2015); Rauris, Austria; March Quantum-Dot Plasmonics, invited talk presented at Quantum Plasmonics 2015; Benasque, Spain; March Quantum Plasmonics, invited lecture presented at the Swiss Materials Science Winter School (Winscool); Champery, Switzerland; March Photon Energy Conversion with Semiconductor Nanocrystals, invited talk presented at the Gordon Research Conference on Nanomaterials for Applications in Energy Technology; Ventura, USA; February Quantum-Dot Plasmonics, invited talk presented at the Fall Meeting of the Materials Research Society (MRS); Boston, USA; December Fabrication of Plasmonic Devices, invited talk presented at Swissnex Boston; Cambridge, USA; December Electronic Impurity Doping of Colloidal Semiconductor Quantum Dots, invited talk presented at the 3 rd International Symposium on Disperse Systems for Electronic Applications; Erlangen, Germany; September Electronic Impurity Doping of Colloidal Semiconductor Quantum Dots, invited talk presented at the International Conference on Fundamental Processes in Semiconductor Nanocrystals; Oxford, UK; September Complex Chiral Colloids for Visible and Ultraviolet Plasmonics, invited talk at the SPIE Optics and Photonics Congress; San Diego, USA; August Electronic Impurity Doping of Colloidal Semiconductor Quantum Dots, invited seminar presented at the Inorganic Chemistry Department of Humboldt University; Berlin, Germany; June History of Nanocrystal Doping, invited talk presented at the 30 th Anniversary of the Discovery of Colloidal Quantum Dots Conference; Paris, France; May

12 22. Complex Chiral Colloids for Plasmonics, invited talk presented at the 5th International Conference on Metamaterials, Photonic Crystals, and Plasmonics (META 2014); Singapore; May Electronic Impurity Doping of Colloidal Semiconductor Quantum Dots, invited plenary talk presented at the Quantum Dot 2014 Conference (QD2014); Pisa, Italy; May Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited talk presented at the Spring Meeting of the Materials Research Society (MRS); San Francisco, USA; May Metallic Nanostructures: Thermal Beaming to Chiral Colloids, invited seminar presented at the Russell Berrie Nanotechnology Institute at the Technion Israel Institute of Technology; Haifa, Israel; April Template-Stripped Films for Thermophotovoltaics, invited talk presented at the 26th Workshop on Quantum Solar Energy Conversion (Quantsol 2014); Rauris, Austria; March Complex Chiral Colloids, invited seminar presented at the Department of Chemistry at the National University of Singapore; Singapore; February Thermal Plasmonics as a Route to Thermophotovoltaics? invited seminar presented at the Department of Electronic Materials Engineering at the Australian National University; Canberra, Australia; February Complex Chiral Colloids, invited seminar presented at the Department of Physics at the University of Melbourne; Melbourne, Australia; February Thermal Plasmonics for Energy Conversion, invited talk presented at the 2014 International Conference on Nanoscience and Nanotechnology (ICONN2014); Adelaide, Australia; February Chiral Colloids, invited talk presented at the Symposium in Celebration of the 60 th Birthday of Thomas Ebbesen; Strasbourg, France; February Chiral Plasmonic Films and Nanoparticles, invited colloquium presented at the Department of Physics at the Technical University of Berlin; Berlin, Germany; November Complex Chiral Colloids, invited colloquium presented at the FOM-Institute for Atomic and Molecular Physics (AMOLF); Amsterdam, the Netherlands; November From Thermal Beaming to Chiral Colloids, invited seminar presented at the Department of Applied Chemistry at the University of Brescia; Brescia, Italy; October Chiral Plasmonic Films and Nanoparticles, invited talk at the SPIE Optics and Photonics Congress; San Diego, USA; August

13 36. Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited talk presented at the Gordon Research Conference on Clusters, Nanocrystals, and Nanostructures; South Hadley, USA; August Tailoring the Glow of a Nanostructured Metal, invited colloquium in Materials Science at the Hamburg University of Technology; Harburg, Germany; June Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited seminar presented at the Department of Chemistry at the University of Hamburg; Hamburg, Germany; June Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited talk at the Workshop on Electron Transport in Nanocrystal Assemblies (ETNCA); Minneapolis, USA; June Chiral Plasmonic Films and Nanoparticles, invited talk presented at the CLEO/QELS Conference 2013; San Jose, USA; June Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited talk presented at the Spring Meeting of the European Materials Research Society (EMRS); Strasbourg, France; May How Does Convective Assembly Work? invited talk presented at the Workshop on the Physics of Colloids in External Fields; Mainz, Germany; March Thermal Plasmonics as a Route to Photovoltaics? invited talk presented at the 2013 International Workshop on Antenna Technology (iwat-2013); Karlsruhe, Germany; March Chiral Plasmonic Films and Nanoparticles, invited talk presented at the 2013 Matheon Workshop 6th Annual Meeting on Photonic Devices; Berlin, Germany; February Plasmonic Films for Energy Conversion, invited talk presented at the Mini Symposium on Plasmonics and Solar Cells; Zurich, Switzerland; January Plasmonic Films for Energy Conversion, invited keynote address presented at the International Conference on Solar Energy Photovoltaic; Bhubaneswar, India; December Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited seminar presented at the Department of Physics at the University of Cambridge; Cambridge, UK; December Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited colloquium presented at the Naval Research Laboratory; Washington D.C., USA; November Template-Stripped Plasmonic Films, invited plenary talk presented at the Fifth International Workshop on Theoretical and Computational Nano-Photonics (TaCoNa-Photonics 2012); Bad Honnef, Germany; October

14 50. Hot Electron Transfer from Semiconductor Nanocrystals, invited talk presented at the Workshop on High-Efficiency Materials for Photovoltaics; London, UK; September Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited talk presented at the Fall Meeting of the American Chemical Society (ACS); Philadelphia, USA; August Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited talk presented at the Gordon Research Conference on Defects in Semiconductors; Biddeford, ME, USA; August Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited talk presented at the International Workshop on Ordered and Non-Ordered Superstructures of Nanosized Objects; Dresden, Germany; July Hot Electrons and Hot Plasmons for Photovoltaics, invited colloquium presented at the Department of Physics at the University of Stuttgart; Stuttgart, Germany; July Template-Stripped Films for Photovoltaics, invited talk presented at the Annual Optical Society of America Meeting on Integrated Photonics Research, Silicon, and Nanophotonics; Colorado Springs, USA; June Template-Stripped Films for Plasmonics, invited talk presented at the Gordon Research Conference on Plasmonics; Waterville, ME, USA; June Hot Electrons and Hot Plasmons for Photovoltaics, invited colloquium presented at the Department of Physics at the Technical University of Chemnitz; Chemnitz, Germany; May Template-Stripped Plasmonic Films for Energy Conversion, invited talk presented at the Spring Meeting of the European Materials Research Society (EMRS); Strasbourg, France; May Improved Plasmonic Films via Template Stripping, invited talk presented at the 3rd International Conference on Metamaterials, Photonic Crystals, and Plasmonics (META 2012); Paris, France; April Hot Electrons and Hot Plasmons for Photovoltaics, invited seminar presented at the Department of Chemical Engineering at Drexel University; Philadelphia, USA; April Electronic Impurity Doping of Colloidal Semiconductor Nanocrystals, invited seminar presented at Pennergy at the University of Pennsylvania; Philadelphia, USA; April Hot Electron Transfer from Semiconductor Nanocrystals, invited talk presented at the 24th Workshop on Quantum Solar Energy Conversion (Quantsol 2012); Bad Gastein, Austria; March Thermal Plasmonics as a Route to Photovoltaics? invited talk presented at the 2012 Matheon Workshop 5th Annual Meeting on Photonic Devices; Berlin, Germany; February

15 64. Electronic Impurity Doping of CdSe Nanocrystals, invited seminar presented at the Institute of Materials at the Ecole Polytechnique Fédérale de Lausanne (EPFL); Lausanne, Switzerland; February Electronic Impurity Doping of CdSe Nanocrystals, invited Debye Lecture presented at the Utrecht University; Utrecht, the Netherlands; November Thermal Plasmonics as a Route to Photovoltaics? invited talk presented at the AVS 58th International Symposium; Nashville, USA; November Thermal Plasmonics as a Route to Photovoltaics? invited talk presented at the Annual Meeting of the American Institute for Chemical Engineers (AIChE); Minneapolis, USA; October Doping Colloidal Semiconductor Nanocrystals, invited talk presented at the User Workshop for the Center for Integrated Nanotechnologies (CINT); Albuquerque, USA; September Doping Colloidal Semiconductor Nanocrystals, invited talk presented at the International Conference on Nanoscience & Technology (ChinaNANO 2011); Beijing, China; September Hot Electrons and Hot Plasmons, invited seminar presented at the CAS Key Laboratory of Renewable Energy at the Chinese Academy of Sciences; Beijing, China; September Hot Electrons, invited seminar presented at the CAS Key Laboratory of Photochemistry at the Chinese Academy of Sciences; Beijing, China; September Hot Electrons and Hot Plasmons, invited seminar presented at the Institute of Process Engineering at the Chinese Academy of Sciences; Beijing, China; September Hot Electrons and Hot Plasmons, invited lecture presented at the Workshop on Emerging Materials for Thin Film Solar Cells at the University of California, Santa Barbara; Santa Barbara, USA; August Ultrasmooth Patterned Metals for Plasmonics, Metamaterials, and Photovoltaics, invited lecture presented at the Pan-American Advanced Studies Institute (PASI); San Jose, Costa Rica; August Opaline Photonic Crystals: How Does Convective Assembly Work? invited lecture presented at the Pan-American Advanced Studies Institute (PASI); San Jose, Costa Rica; August Thermal Plasmonics as a Route to Photovoltaics? invited talk presented at WavePro; Rethymnon, Crete; June Doping Colloidal Quantum Dots, invited lecture presented at the Heterogeneous Quantum Rod and Quantum Dot Nanomaterials Summer School; Cargèse, Corsica; April Nanowire-Quantum-Dot Solar Cells and Hot Electron Transfer from Nanocrystals, invited lecture presented at the Winter School on Semiconducting Nanoparticles: Optoelectonics and 15

16 Photovoltaics; Duisburg, Germany; December Thermal Plasmonics as a Route to Directional Thermal Emitters, invited talk presented at the Workshop on Advanced Concepts in Semiconductor Materials and Devices for Energy Conversion; Adelphi, MD, USA; December Tailoring Thermal Emission with Metallic Photonic Crystals and Plasmonic Films, invited talk presented at the Workshop on Thermal Barriers; Zurich, Switzerland; October Controlling the Glow of a Heated Metal Film, invited talk presented at the Brijuni Conference on Sustainable Sources Energy; Brijuni Island, Croatia; August Nanowire-Quantum-Dot Solar Cells, invited talk presented at the Spring Meeting of the Materials Research Society (MRS); San Francisco, USA; April Thermal Plasmonics: Controlling the Glow of a Heated Metal Film, invited seminar presented at the Department of Chemical Engineering at the University of Florida; Gainesville, USA; February Thermal Plasmonics: Controlling the Glow of a Heated Metal Film, invited seminar presented at the Department of Chemistry and Biochemistry at Florida State University; Tallahassee, USA; January Thermal Plasmonics: Controlling the Glow of a Heated Metal Film, invited seminar presented at the Department of Chemical and Biological Engineering at Rensselaer Polytechnic Institute; Troy, USA; November Ultrasmooth Patterned Metals for Plasmonics and Metamaterials, invited talk presented at the Synthesis and Processing Contractor Meeting (DOE-BES); Warrenton, VA; October Thermal Plasmonics: Controlling the Glow of a Heated Metal Film, invited seminar presented at the IBM Research Laboratory; Zurich, Switzerland; October Thermal Plasmonics: Controlling the Glow of a Heated Metal Film, invited seminar presented at the Department of Physics at University of Texas, San Antonio; San Antonio, USA; September Thermal Plasmonics: Controlling the Glow of a Heated Metal Film, invited talk presented at the Department of Mechanical and Process Engineering at the Swiss Federal Institute of Technology Zurich (ETH Zurich); Zurich, Switzerland; September Ultrasmooth Patterned Metals for Plasmonics and Thermal Plasmonics, invited seminar presented at the 3M Science Research Center; St. Paul, USA; August Tailoring the Glow of a Heated Metal: Thermophotovoltaics, Thermal Beaming, and Ultra-Smooth Plasmonics, invited colloquium presented at the Department of Materials Science and Engineering at Stanford University; Palo Alto, USA; May Altering the Glow of Metals: Thermophotovoltaics to Thermal Beaming invited talk presented at the MRL Workshop on Multifunctional Materials at the University of Illinois; Urbana, USA; May

17 93. Doping Colloidal Semiconductor Quantum Dots: Why Has It Been So Difficult? invited talk presented at Nanotech 2009; Houston, USA; May Altering the Glow of a Heated Metal: Photonic Crystals and Thermophotovoltaics, invited colloquium presented at the Center for Nanoscale Materials at Argonne National Laboratory; Argonne, USA; February Doped Semiconductor Nanocrystals, invited talk at the SPIE Photonics West; San Jose, USA; January Tailoring the Glow of a Heated Metal, invited talk presented at the Fifth International Workshop on Multifunctional Materials; Copper Canyon, Mexico; January Altering the Glow of a Heated Metal: Photonic Crystals and Thermophotovoltaics, invited talk presented at the 4th Annual Minnesota Nanotechnology Conference; Minneapolis, USA; November Altering the Glow of a Heated Metal: Photonic Crystals and Thermophotovoltaics, invited seminar presented at the Vanderbilt Institute of Nanoscale Science and Engineering at Vanderbilt University; Nashville, USA; October Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited seminar presented at the Department of Physics at Macalester College; St. Paul, USA; September Tailoring Thermal Emission with Metallic Photonic Crystals, invited talk at the SPIE Optics and Photonics Conference; San Diego, USA; August Doped Semiconductor Nanocrystals, invited discussion leader at the Gordon Research Conference on Defects in Semiconductors; New London, NH; August Synthesizing Doped Semiconductor Nanocrystals: Why Has It Been Difficult? invited keynote talk at the Foundations of Nanoscience Conference; Snowbird, USA; April How Does Convective Assembly Work? invited seminar presented at the Department of Chemical and Petrochemical Engineering at the University of Pittsburgh; Pittsburgh, USA; April Synthesizing Doped Semiconductor Nanocrystals: Why Has It Been Difficult? invited talk presented at the Spring Meeting of the American Chemical Society (ACS); New Orleans, USA; April Synthesizing Doped Semiconductor Nanocrystals: Why Has It Been Difficult? invited faculty lunchtime seminar presented at the Chemistry Department of the University of Minnesota; Minneapolis, USA; February Why Has Doping Been Difficult in Semiconductor Nanocrystals? invited seminar presented at the Department of Chemical and Biomolecular Engineering at the Korea Advanced Institute of Science & Technology; Daejeon, KOREA; December Why Has Doping Been Difficult in Semiconductor Nanocrystals? invited seminar presented at the School of Chemical and Biological Engineering of Seoul National University; Seoul, Korea; December

18 108. Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited talk presented at the Annual Meeting of the American Institute for Chemical Engineers (AIChE); Salt Lake City, USA; November Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited seminar presented at the Physics Department of Hamline University; St. Paul, USA; October Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited seminar presented at the Particle Technology Laboratory of the Swiss Federal Institute of Technology Zurich (ETH Zurich); Zurich, Switzerland; July How Does Convective Assembly Work? invited seminar presented at the Ecole Supérieure de Physique et de Chimie Industrielles of Paris (ESPCI); Paris, France; June Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited seminar presented at the Ecole Supérieure de Physique et de Chimie Industrielles of Paris (ESPCI); Paris, France; June How Does Convective Assembly Work? invited colloquium presented at the FOM-Institute for Atomic and Molecular Physics; Amsterdam, the Netherlands; June Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited seminar presented at the Physics Department of the University of Utrecht; Utrecht, the Netherlands; June Fluorescent Frogs Need Doped Dots: But How Do We Dope? invited colloquium presented at the Physics Department of the University of Dortmund; Dortmund, Germany; May Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited seminar presented at the Chemistry Department of the University of Siegen; Siegen, Germany; May Fluorescent Frogs and Doped Dots, invited lecture presented at the Spring Course on Semiconducting Nanoparticles at the University of Duisburg; Duisburg, Germany; May Opaline Photonic Crystals: How Does Convective Assembly Work? invited talk presented at the Meeting of the DFG Special Program on Photonic Crystals; Bad Honnef, Germany; April How Does Convective Assembly Work? invited talk presented at the Spring Meeting of the Materials Research Society (MRS); San Francisco, USA; April Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited talk presented at the Spring Meeting of the German Physical Society (DPG); Regensburg, Germany; March Why Has Doping Been So Difficult in Semiconductor Nanocrystals? invited seminar presented at the Institute for Materials Chemistry of the Technical University of Vienna; Vienna, Austria; March

Kevin M. McPeak Curriculum vitae April 26, 2016

Louisiana State University Cain Department of Chemical Engineering 110 Chemical Engineering Bldg S. Stadium Dr. Baton Rouge, LA 70803 kmcpeak@lsu.edu 225.578.0058 EDUCATION Kevin M. McPeak Curriculum vitae