Publications

Main content

2017

Direct Patterning of Colloidal Quantum-Dot Thin Films for Enhanced and Spectrally Selective Out-Coupling of Emission
Ferry Prins, David K. Kim, Jian Cui, Eva De Leo, Leo L. Spiegel, Kevin M. McPeak and David J. Norris
Nano Letters, 17 (3): 1319-1325, Washington, DC: American Chemical Society, 2017.
Nanocrystal Growth from the Inside and Outside: Theory of Cation Exchange and Nanoplatelet Formation
Florian Dimitri Ott
Doctoral Thesis, Zurich, ETH Zurich, 2017.

2016

Split-Wedge Antennas with Sub-5 nm Gaps for Plasmonic Nanofocusing
Xiaoshu Chen, Nathan C. Lindquist, Daniel J. Klemme, Prashant Nagpal, David J. Norris and Sang-Hyun Oh
Nano Letters, 16 (12): 7849-7856, Washington, DC: American Chemical Society, 2016.
Europium-Doped NaYF4 Nanocrystals as Probes for the Electric and Magnetic Local Density of Optical States throughout the Visible Spectral Range
Freddy T. Rabouw, P. Tim Prins and David J. Norris
Nano Letters, 16 (11): 7254-7260, Washington, DC: American Chemical Society, 2016.
Optical Chirality Flux as a Useful Far-Field Probe of Chiral Near Fields
Lisa V. Poulikakos, Philipp Gutsche, Kevin M. McPeak, Sven Burger, Jens Niegemann, Christian Hafner and David J. Norris
ACS Photonics, 3 (9): 1619-1625, Washington, DC: American Chemical Society, 2016.
Charge Trapping Defects in CdSe Nanocrystal Quantum Dots
António J. Almeida, Ayaskanta Sahu, Andreas Riedinger, David J. Norris, Martin S. Brandt, Martin Stutzmann and Rui N. Pereira
The Journal of Physical Chemistry C, 120 (25): 13763-13770, Washington, DC: American Chemical Society, 2016.
Observation of Thermal Beaming from Tungsten and Molybdenum Bull's Eyes
Jong Hyuk Park, Sang Eon Han, Prashant Nagpal and David J. Norris
Acs Photonics, 3 (3): 494-500, Washington, DC: American Chemical Society, 2016.
Confocal reference free traction force microscopy
Martin Bergert, Tobias Lendenmann, Manuel Zündel, Alexander E. Ehret, Daniele Panozzo, Patrizia Richner, David K. Kim, Stephan J.P. Kress, David J. Norris, Olga Sorkine-Hornung, Edoardo Mazza, Dimos Poulikakos and Aldo Ferrari
Nature Communications, 7: 12814, London: Nature Publishing Group, 2016.
Quantum-dot plasmonic waveguides, resonators, and spasers
Stephan J.P. Kress
Doctoral Thesis, Zürich, ETH Zürich, 2016.
Printable Nanoscopic Metamaterial Absorbers and Images with Diffraction-Limited Resolution
Patrizia Richner, Hadi Eghlidi, Stephan J.P. Kress, Martin Schmid, David J. Norris and Dimos Poulikakos
ACS Applied Materials and Interfaces, 8 (18): 11690-11697, Washington, DC: American Chemical Society, 2016.
Full-Spectrum Flexible Color Printing at the Diffraction Limit
Patrizia Richner, Patrick Galliker, Tobias Lendenmann, Stephan J.P. Kress, David K. Kim, David J. Norris and Dimos Poulikakos
ACS Photonic, 3 (5): 754-757, Washington: American Chemical Society, 2016.
Charge effects and nanoparticle pattern formation in electrohydrodynamic NanoDrip printing of colloids
Patrizia Richner, Stephan J.P. Kress, David J. Norris and Dimos Poulikakos
Nanoscale, 8 (11): 6028-6034, Cambridge: Royal Society of Chemistry, 2016.

2015

Template-Stripped Tunable Plasmonic Devices on Stretchable and Rollable Substrates
Daehan Yoo, Timothy W. Johnson, Sudhir Cherukulappurath, David J. Norris and Sanghyun Oh
ACS Nano, 9 (11): 10647-10654, Columbus, OH: American Chemical Society, 2015.
Wedge Waveguides and Resonators for Quantum Plasmonics
Stephan J.P. Kress, Felipe V. Antolinez, Patrizia Richner, Sriharsha V. Jayanti, David K. Kim, Ferry Prins, Andreas Riedinger, Maximilian P.C. Fischer, Stefan Meyer, Kevin M. McPeak, Dimos Poulikakos and David J. Norris
Nano Letters, 15 (9): 6267-6275, Washington, DC: American Chemical Society, 2015.
Plasmonic films can easily be better: Rules and recipes
Kevin M. McPeak, Sriharsha V. Jayanti, Stephan J.P. Kress, Stefan Meyer, Stelio Iotti, Aurelio Rossinelli and David J. Norris
ACS Photonics, 2 (3): 326-333, Washington, DC: American Chemical Society, 2015.
Low-temperature enhancement of plasmonic performance in silver films
Sriharsha V. Jayanti, Jong Hyuk Park, Alexandr Dejneka, Dagmar Chvostova, Kevin M. McPeak, Xiaoshu Chen, Sang-Hyun Oh and David J. Norris
Optical Materials Express, 5 (5): 1147-1155, Washington: OSA, 2015.
Localization of Ag Dopant Atoms in CdSe Nanocrystals by Reverse Monte Carlo Analysis of EXAFS Spectra
Alexander Kompch, Ayaskanta Sahu, Christian Notthoff, Florian Ott, David J. Norris and Markus Winterer
The Journal of Physical Chemistry C, 119 (32): 18762-18772, Washington, DC: American Chemical Society, 2015.
Ultraviolet Plasmonic Chirality from Colloidal Aluminum Nanoparticles Exhibiting Charge-Selective Protein Detection
Kevin M. McPeak, Christian D. van Engers, Sarah Bianchi, Auerlio Rossinelli, Lisa V. Poulikakos, Laetitia Bernard, Sarah Herrmann, David K. Kim, Sven Burger, Mark Blome, Sriharsha V. Jayanti and David J. Norris
Advanced Materials, 27 (40): 6244-6250, Weinheim: Wiley-VCH, 2015.

2014

Near-field light design with colloidal quantum dots for photonics and plasmonics
Stephan J.P. Kress, Patrizia Richner, Sriharsha V. Jayanti, Patrick Galliker, David K. Kim, Dimos Poulikakos and David J. Norris
Nano Letters, 14 (10): 5827-5833, Washington, DC: American Chemical Society, 2014.
Complex chiral colloids and surfaces via high-index off-cut silicon
Kevin M. McPeak, Christian D. van Engers, Mark Blome, Jong Hyuk Park, Sven Burger, Miguel A. Gosalvez, Ava Faridi, Yasmina R. Ries, Ayaskanta Sahu and David J. Norris
Nano Letters, 14 (5): 2934-2940, Washington, DC: American Chemical Society, 2014.
Solid-phase flexibility in Ag2Se semiconductor nanocrystals
Ayaskanta Sahu, Daniele Braga, Oliver Waser, Moon Sung Kang, Donna Deng and David J. Norris
Nano Letters, 14 (1): 115-121, Washington, DC: American Chemical Society, 2014.
Back-reflector design in thin-film silicon solar cells by rigorous 3D light propagation modeling
Mark Blome, Kevin McPeak, Sven Burger, Frank Schmidt and David Norris
Compel, 33 (4): 1282-1295, Bradford: Emerald, 2014.
Broadband up-conversion at subsolar irradiance: Triplet–triplet annihilation boosted by fluorescent semiconductor nanocrystals
Angelo Monguzzi, Daniele Braga, M. Gandini, Vincent Holmberg, David K. Kim, Ayaskanta Sahu, David J. Norris and Francesco Meinardi
Nano Letters, 14 (11): 6644-6650, Washington, DC: American Chemical Society, 2014.
Microscopic theory of cation exchange in CdSe nanocrystals
Florian D. Ott, Leo L. Spiegel, David J. Norris and Steven C. Erwin
Physical Review Letters, 113 (15): 156803, New York, NY: American Physical Society, 2014.

2013

Plasmonic nanofocusing with a metallic pyramid and an integrated C-shaped aperture
Nathan C. Lindquist, Timothy W. Johnson, Prashant Nagpal, David J. Norris and Sang-Hyun Oh
Scientific Reports, 3: 1857, London: Nature Publishing Group, 2013.
Imaging impurities in semiconductor nanostructures
Vincent C. Holmberg, Justin R. Helps, K. Andre Mkhoyan and David J. Norris
Chemistry of Materials, 25 (8): 1332-1350, Washington, DC: American Chemical Society, 2013.
Influence of silver doping on electron transport in thin films of PbSe nanocrystals
Moon Sung Kang, Ayaskanta Sahu, C. Daniel Frisbie and David J. Norris
Advanced Materials, 25 (5): 725-731, Weinheim: Wiley-VCH, 2013.
Fabrication of smooth patterned structures of refractory metals, semiconductors, and oxides via template stripping
Jong H. Park, Prashant Nagpal, Kevin M. McPeak, Nathan C. Lindquist, Sang-Hyun Oh and David J. Norris
ACS Applied Materials & Interfaces, 5 (19): 9701-9708, Washington, DC: American Chemical Society, 2013.

2012

Linewidth-optimized extraordinary optical transmission in water with template-stripped metallic nanohole arrays
Si Hoon Lee, Timothy W. Johnson, Nathan C. Lindquist, Hyungsoon Im, David J. Norris and Sang-Hyun Oh
Advanced Functional Materials, 22 (21): 4439-4446, Weinheim: Wiley-VCH, 2012.
Getting moore from solar cells
David J. Norris and Eray S. Aydil
Science, 338 (6107): 625-626, Washington, DC: American Association for the Advancement of Science, 2012.
Single-crystalline silver films for plasmonics
Jong Hyuk Park, Palak Ambwani, Michael Manno, Nathan C. Lindquist, Prashant Nagpal, Sang-Hyun Oh, Chris Leighton and David J. Norris
Advanced Materials, 24 (29): 3988-3992, Weinheim: Wiley-VCH, 2012.
Erratum to “Calculation of the lattice dynamics and Raman spectra of copper zinc tin chalcogenides and comparison to experiments” [J. Appl. Phys. 111, 083707 (2012)]
Ankur Khare, Burak Himmetoglu, Melissa Johnson, David J. Norris, Matteo Cococcioni and Eray S. Aydil
Journal of Applied Physics, 111 (12): 129901, Melville, NY: American Institute of Physics, 2012.
Electronic impurity doping in CdSe nanocrystals
Ayaskanta Sahu, Moon Sung Kang, Alexander Kompch, Christian Notthoff, Andrew W. Wills, Donna Deng, Markus Winterer, C. Daniel Frisbie and David J. Norris
Nano Letters, 12 (5): 2587-2594, Washington, DC: American Chemical Society, 2012.
Synthesis and characterization of Al- and In-doped CdSe nanocrystals
Andrew W. Wills, Moon Sung Kang, Katherine M. Wentz, Sophia E. Hayes, Ayaskanta Sahu, Wayne L. Gladfelter and David J. Norris
Journal of Materials Chemistry, 22 (13): 6335-6342, Cambridge: Royal Society of Chemistry, 2012.
Calculation of the lattice dynamics and Raman spectra of copper zinc tin chalcogenides and comparison to experiments
Ankur Khare, Burak Himmetoglu, Melissa Johnson, David J. Norris, Matteo Cococcioni and Eray S. Aydil
Journal of Applied Physics, 111 (8): 083707, Melville, NY: American Institute of Physics, 2012.
Engineering metallic nanostructures for plasmonics and nanophotonics
Nathan C. Lindquist, Prashant Nagpal, Kevin M. McPeak, David J. Norris and Sang-Hyun Oh
Reports on Progress in Physics, 75 (3): 036501, London: Institute of Physics, 2012.
Improved dielectric functions in metallic films obtained via template stripping
Jong Hyuk Park, Prashant Nagpal, Sang-Hyun Oh and David J. Norris
Applied Physics Letters, 100 (8): 081105, Melville, NY: American Institute of Physics, 2012.
Quantum confinement in silver selenide semiconductor nanocrystals
Ayaskanta Sahu, Ankur Khare, Donna D. Deng and David J. Norris
Chemical Communications, 48 (44): 5458-5460, Cambridge, UK: Royal Society of Chemistry, 2012.

2011

Imaging “invisible” dopant atoms in semiconductor nanocrystals
Aloysius A. Gunawan, K. Andre Mkhoyan, Andrew W. Wills, Malcolm G. Thomas and David J. Norris
Nano Letters, 11 (12): 5553-5557, Washington, DC: American Chemical Society, 2011.
Size control and quantum confinement in Cu2ZnSnS4
Ankur Khare, David J. Norris, Eray S. Aydil, Andres W. Wills and Lauren M. Ammerman
Chemical Communications, 47 (42): 11721-11723, Cambridge, UK: Royal Society of Chemistry, 2011.
Impact dynamics of colloidal quantum dot solids
Lejun Qi, Peter H. McMurry, David J. Norris and Steven L. Girshick
Langmuir, 27 (20): 12677-12683, Washington, DC: American Chemical Society, 2011.
Monolithic integration of continuously tunable plasmonic nanostructures
Nathan C. Lindquist, Timothy W. Johnson, David J. Norris and Sang-Hyun Oh
Nano Letters, 11 (9): 3526-3530, Washington, DC: American Chemical Society, 2011.
Template-stripped smooth Ag nanohole arrays with silica shells for surface plasmon resonance biosensing
Hyungsoon Im, Si Hoon Lee, Nathan J. Wittenberg, Timothy W. Johnson, Nathan C. Lindquist, Prashant Nagpal, David J. Norris and Sang-Hyun Oh
ACS Nano, 5 (8): 6244-6253, Columbus, OH: American Chemical Society, 2011.
Facile synthesis of silver chalcogenide (Ag2E; E = Se, S, Te) semiconductor nanocrystals
Ayaskanta Sahu, Lejun Qi, Moon Sung Kang, Donna Deng and David J. Norris
Journal of the American Chemical Society, 133 (17): 6509-6512, Washington, DC: American Chemical Society, 2011.
Size- and temperature-dependent charge transport in PbSe nanocrystal thin films
Moon Sung Kang, Ayaskanta Sahu, David J. Norris and C. Daniel Frisbie
Nano Letters, 11 (9): 3887-3892, Washington, DC: American Chemical Society, 2011.
Fabrication of carbon/refractory metal nanocomposites as thermally stable metallic photonic crystals
Prashant Nagpal, David P. Josephson, Nicholas R. Denny, Joseph DeWilde, David J. Norris and Andreas Stein
Journal of Materials Chemistry, 21 (29): 10836-10843, Cambridge: The Royal Society of Chemistry, 2011.

2010

Size-dependent electrical transport in CdSe nanocrystal thin films
Moon Sung Kang, Ayaskanta Sahu, David J. Norris and C. Daniel Frisbie
Nano Letters, 10 (9): 3727-3732, Washington, DC: American Chemical Society, 2010.
Thermally degradable ligands for nanocrystals
Andrew W. Wills, Moon Sung Kang, Ankur Khare, Wayne L. Gladfelter and David J. Norris
ACS Nano, 4 (8): 4523-4530, Columbus, OH: American Chemical Society, 2010.
Influence of atmospheric gases on the electrical properties of PbSe quantum-dot films
Kurtis S. Leschkies, Moon Sung Kang, Eray S. Aydil and David J. Norris
The Journal of Physical Chemistry. C, Energy Conversion and Storage, Optical and Electronic Devices, Interfaces, Nanomaterials, and Hard Matter, 114 (21): 9988-9996, Washington, DC: American Chemical Society, 2010.
Hot electron transfer from semiconductor nanocrystals
William A. Tisdale, Kenrick J. Williams, Brooke A. Timp, David J. Norris, Eray S. Aydil and X.-Y. Zhu
Science, 328 (5985): 1543-1547, Washington, DC: American Association for the Advancement of Science, 2010.
Three-dimensional plasmonic nanofocusing
Nathan C. Lindquist, Prashant Nagpal, Antoine Lesuffleur, David J. Norris and Sang-Hyun Oh
Nano Letters, 10 (4): 1369-1373, Washington, DC: American Chemical Society, 2010.
Beaming thermal emission from hot metallic bull’s eyes
E.S. Han and David J. Norris
Optics Express, 18 (5): 4829-4837, Washington, DC: Optical Society of America, 2010.
In-situ high temperature TEM analysis of sintering in nanostructured tungsten and tungsten-molybdenum alloy photonic crystals
Nicholas R. Denny, Fan Li, David J. Norris and Andreas Stein
Journal of Materials Chemistry, 20 (8): 1538-1545, Cambridge: Royal Society of Chemistry, 2010.
Control of thermal emission by selective heating of periodic structures
E.S. Han and David J. Norris
Physical Review Letters, 104 (4): 043901, New York, NY: American Physical Society, 2010.
Controlling the glow of a heated metal film
David J. Norris
Brijuni Conference on Sustainable Sources of Energy 2010, 2010.
Synthesis and properties of colloidal semiconducting nanoparticles
David J. Norris
Universität Duisburg-Essen, 2010.
Tailoring thermal emission with metallic photonic crystals and plasmonic films
David J. Norris
ETH Zürich, Department of Materials, 2010.
Thermal plasmonics as a route to directional thermal emitters
David J. Norris
Workshop on Advanced Concepts in Semiconductor Materials and Devices for Energy Conversion (ACSMDEC), 2010.
Micropattern deposition of colloidal semiconductor nanocrystals by aerodynamic focusing
Lejun Qi, Peter H. McMurry, David J. Norris and Steven L. Girshick
Aerosol Science and Technology, 44 (1): 55-60, London: Taylor & Francis, 2010.
Effect of different manganese precursors on the doping efficiency in ZnSe nanocrystals
Lijun Zu, Andrew W. Wills, Thomas A. Kennedy, Evan Glaser and David J. Norris
The Journal of Physical Chemistry. C, Energy Conversion and Storage, Optical and Electronic Devices, Interfaces, Nanomaterials, and Hard Matter, 114 (50): 21969-21975, Washington, DC: American Chemical Society, 2010.

2009

Nanowire-quantum-dot solar cells and the influence of nanowire length on the charge collection efficiency
Kurtis S. Leschkies, Alan G. Jacobs, David J. Norris and Eray S. Aydil
Applied Physics Letters, 95 (19): 193103, Melville, NY: American Institute of Physics, 2009.
High carrier densities achieved at low voltages in ambipolar PbSe nanocrystal thin-film transistors
Moon Sung Kang, Jiyoul Lee, David J. Norris and Daniel C. Frisbie
Nano Letters, 9 (11): 3848-3852, Washington, DC: American Chemical Society, 2009.
Solar cells based on junctions between colloidal PbSe nanocrystals and thin ZnO films
Kurtis S. Leschkies, Timothy J. Beatty, Moon Sung Kang, David J. Norris and Eray S. Adyil
ACS Nano, 3 (11): 3638-3648, Columbus, OH: American Chemical Society, 2009.
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 David J. Norris
Applied Physics Letters, 95 (5): 051910, Melville, NY: American Institute of Physics, 2009.
Ultrasmooth patterned metals for plasmonics and metamaterials
Prashant Nagpal, Nathan C. Lindquist, Sang-Hyun Oh and David J. Norris
Science, 325 (5940): 594-597, Washington, DC: American Association for the Advancement of Science, 2009.
Strong electronic coupling in two-dimensional assemblies of colloidal PbSe quantum dots
Kenrick J. Williams, William A. Tisdale, Kurtis S. Leschkies, Greg Haugstad, David J. Norris, Eray S. Aydil and X.-Y. Zhu
ACS Nano, 3 (6): 1532-1538, Columbus, OH: American Chemical Society, 2009.

2008

Mechanistic principles of colloidal crystal growth by evaporation-induced convective steering
Damien D. Brewer, Joshua Allen, Michael R. Miller, Juan M. de Santos, Satish Kumar, David J. Norris, Michael Tsapatsis and L.E. Scriven
Langmuir, 24 (23): 13683-13693, Washington, DC: American Chemical Society, 2008.
Efficient low-temperature thermophotovoltaic emitters from metallic photonic crystals
Prashant Nagpal, Sang Eon Han, Andreas Stein and David J. Norris
Nano Letters, 8 (10): 3238-3243, Washington, DC: American Chemical Society, 2008.
Electron dynamics at the ZnO (101̅0) surface
William A. Tisdale, Matthias Muntwiler, David J. Norris, Eray S. Aydil and X.-Y. Zhu
The Journal of Physical Chemistry. C, Energy Conversion and Storage, Optical and Electronic Devices, Interfaces, Nanomaterials, and Hard Matter, 112 (37): 14682-14692, Washington, DC: American Chemical Society, 2008.
Comment on "Self-purification in semiconductor nanocrystals"
M.-H. Du, A.L. Efros, S.C. Erwin and David J. Norris
Physical Review Letters, 100 (17): 179702, New York, NY: American Physical Society, 2008.
Doped nanocrystals
David J. Norris, Alexander L. Efros and Steven C. Erwin
Science, 319 (5871): 1776-1779, Washington, DC: American Association for the Advancement of Science, 2008.
Thermally stable organic–inorganic hybrid photoresists for fabrication of photonic band gap structures with direct laser writing
Yoonho Jun, Prashant Nagpal and David J. Norris
Advanced Materials, 20 (3): 606-610, Weinheim: Wiley-VCH, 2008.
The role of fluid flow and convective steering during the assembly of colloidal crystals
David Gasperino, Linli Meng, David J. Norris and Jeffrey J. Derby
Journal of Crystal Growth, 310 (1): 131-139, Amsterdam: Elsevier, 2008.

2007

Effects of thermal processes on the structure of monolithic tungsten and tungsten alloy photonic crystals
Nicholas R. Denny, Sang Eon Han, David J. Norris and Andreas Stein
Chemistry of Materials, 19 (18): 4563-4569, Washington, DC: American Chemical Society, 2007.
Tailoring self-assembled metallic photonic crystals for modified thermal emission
E.S. Han, Andreas Stein and D.J. Norris
Physical Review Letters, 99 (5): 053906, New York, NY: American Physical Society, 2007.
Photosensitization of ZnO nanowires with CdSe quantum dots for photovoltaic devices
Kurtis S. Leschkies, Ramachandran Divakar, Joysurya Basu, Emil Enache-Pommer, Janice E. Boercker, C.B. Carter, Uwe R. Kortshagen, David J. Norris and Eray S. Aydil
Nano Letters, 7 (6): 1793-1798, Washington, DC: American Chemical Society, 2007.
Materials science: Silicon life forms
David J. Norris
Nature, 446: 146-147, London: Nature Publ. Group, 2007.
Photonic crystals: A view of the future
David J. Norris
Nature Materials, 6 (2007): 177-178, London: Nature Publ. Group, 2007.
Ultrafast optical switching of three-dimensional Si inverse opal photonic band gap crystals
T.G. Euser, H. Wei, J. Kalkman, Y. Jun, A. Polman, David J. Norris and W.L. Vos
Journal of Applied Physics, 102 (5): 053111, Melville, NY: American Institute of Physics, 2007.

2006

The role of thickness transitions in convective assembly
Linli Meng, Hong Wei, Anthony Nagel, Benjamin J. Wiley, L. Edward Scriven and David J. Norris
Nano Letters, 6 (10): 2249-2253, Washington, DC: American Chemical Society, 2006.
Colloidal crystal layers of hexagonal nanoplates by convective assembly
Alex J. Lee, Linli Meng, David J. Norris, L.E. Scriven and Michael Tsapatsis
Langmuir, 22 (12): 5217-5219, Washington, DC: American Chemical Society, 2006.
The impact of ripening on manganese-doped ZnSe nanocrystals
Lijun Zu, David J. Norris, Thomas A. Kennedy, Steven C. Erwin and Alexander L. Efros
Nano Letters, 6 (2): 334-340, Washington, DC: American Chemical Society, 2006.
Quantifying stacking faults and vacancies in thin convectively assembled colloidal crystals
H. Wei, L. Meng and David J. Norris
Applied Physics Letters, 89 (24): 241913, Melville, NY: American Institute of Physics, 2006.

2005

Tailoring air defects in self-assembled photonic bandgap crystals
Yoonho Jun, Catherine A. Leatherdale and David J. Norris
Advanced Materials, 17 (15): 1908-1911, Weinheim: Wiley-VCH, 2005.
Doping semiconductor nanocrystals
Steven C. Erwin, Lijun Zu, Michael I. Haftel, Alexander L. Efros, Thomas A. Kennedy and David J. Norris
Nature, 436 (7047): 91-94, London: Nature Publishing Group, 2005.

2004

Opaline photonic crystals: How does self-assembly work
David J. Norris, E.G. Arlinghaus, L. Meng, R. Heiny and L.E. Scriven
Advanced Materials, 16 (16): 1393-1399, Weinheim: Wiley-VCH, 2004.
Avoiding cracks in self-assembled photonic band gap crystals
A.A. Chabanov, Y. Jun and David J. Norris
Applied Physics Letters, 84 (18): 3573-3575, Melville, NY: American Institute of Physics, 2004.
Selective excitation of erbium in silicon-infiltrated silica colloidal photonic crystals
J. Kalkman, E. de Bres, A. Polman, D.J. Norris, D.C. ‘t Hart, J.P. Hoogenboom and A. van Blaaderen
Journal of Applied Physics, 95 (5): 2297-2302, Melville, NY: American Institute of Physics, 2004.

2003

Quantum dot photonic crystals
David J. Norris and Yurii A. Vlasov
In Semiconductor Nanocrystals: From Basic Principles to Applications, edited by Efros, Alexander L., David J. Lockwood and Leonid Tsybeskov, 239-260, Boston, MA: Springer, 2003.

2002

In vivo imaging of quantum dots encapsulated in phospholipid micelles
Benoit Dubertret, Paris Skourides, David J. Norris, Vincent Noireaux, Ali H. Brivanlou and Albert Libchaber
Science, 298 (5599): 1759-1762, Washington, DC: American Association for the Advancement of Science, 2002.
Device physics: Defective promise in photonics
T. Andrew Taton and David J. Norris
Nature, 416 (6882): 685-686, London: Nature Publ. Group, 2002.
Future directions in solid state chemistry: Report of the NSF-sponsored workshop
Robert J. Cava, Francis J. DiSalvo, Louis E. Brus, Kim R. Dunbar, Christopher B. Gorman, Sossina M. Haile, Leonard V. Interrante, Janice L. Musfeldt, Alexandra Navrotsky, Ralph G. Nuzzo, Warren E. Pickett, Angus P. Wilkinson, Channing Ahn, James W. Allen, Peter C. Burns, Gerdrand Ceder, Christopher E.D. Chidsey, William Clegg, Eugenio Coronado, Hongjie Dai, Michael W. Deem, Bruce S. Dunn, Giulia Galli, Allan J. Jacobson, Mercouri Kanatzidis, Wenbin Lin, Arumugam Manthiram, Milan Mrksich, David J. Norris, Arthur J. Nozik, Xiaogang Peng, Claudia Rawn, Debra Rolison, David J. Singh, Brian H. Toby, Sarah Tolbert, Ulrich B. Wiesner, Patrick M. Woodward and Peidong Yang
Progress in Solid State Chemistry, 30 (1-2): 1-101, Oxford: Elsevier, 2002.

2001

New aspects of nanocrystal research
Luis M. Liz-Marzán and David J. Norris
MRS Bulletin, 26 (12): 981-984, Warrendale, PA: MRS, 2001.
Doping and charging in colloidal semiconductor nanocrystals
Moonsub Shim, Congjun Wang, David J. Norris and Philippe Guyot-Sionnest
MRS Bulletin, 26 (12): 1005-1008, Warrendale, PA: MRS, 2001.
On-chip natural assembly of silicon photonic bandgap crystals
Yurii A. Vlasov, Xiang-Zheng Bo, James C. Sturm and David J. Norris
Nature, 414 (6861): 289-293, London: Nature Publ. Group, 2001.
Chemical approaches to three-dimensional semiconductor photonic crystals
David J. Norris and Yurii A. Vlasov
Advanced Materials, 13 (6): 371-376, Weinheim: Wiley-VCH, 2001.
The complete photonic band gap in inverted opals: How can we prove it experimentally?
David J. Norris and Yurii A. Vlasov
In Photonic Crystals and Light Localization in the 21st Century, edited by Soukoulis, Costas M, 563: 229-237, Dordrecht: Springer Netherlands, 2001.
High-quality manganese-doped ZnSe nanocrystals
David J. Norris, Nan Yao, Forrest T. Charnock and Thomas A. Kennedy
Nano Letters, 1 (1): 3-7, Washington, DC: American Chemical Society, 2001.
Nonlithographic and lithographic methods of nanofabrication - From ultralarge-scale integration to photonics to molecular electronics : symposium held November 26-December 1, 2000, Boston, Massachusetts, U.S.A.
Materials Research Society Symposium Proceedings, 636, Warrendale, PA: Materials Research Soceity, 2001.

2000

Conjugated-polymer photonic crystals
Miriam Deutsch, Yurii A. Vlasov and David J. Norris
Advanced Materials, 12 (6): 1176-1180, Weinheim: Wiley-VCH, 2000.
Single-domain spectroscopy of self-assembled photonic crystals
Yu. A. Vlasov, M. Deutsch and David J. Norris
Applied Physics Letters, 76 (12): 1627-1629, Melville, NY: American Institute of Physics, 2000.

1999

Synthesis of photonic crystals for optical wavelengths from semiconductor quantum dots
Yurii A. Vlasov, Nan Yao and David J. Norris
Advanced Materials, 11 (2): 165-169, Weinheim: Wiley-VCH, 1999.

1998

Simultaneous imaging of individual molecules aligned both parallel and perpendicular to the optic axis
Robert M. Dickson, David J. Norris and W.E. Moerner
Physical Review Letters, 81 (24): 5322-5325, New York, NY: American Physical Society, 1998.
Single-molecule spectroscopy and quantum optics in solids
W.E. Moerner, Robert M. Dickson and David J. Norris
Advances in Atomic, Molecular, and Optical Physics, 38: 193-236, San Diego, CA: Academic Press, 1998.

1997

Single molecule nanophotonics in solids
W.E. Moerner, Robert M. Dickson and David J. Norris
Materials Science & Engineering. B, Advanced Functional Solid-State Materials, 48 (1-2): 169-174, Amsterdam: Elsevier, 1997.
Excitation of a single molecule on the surface of a spherical microcavity
David J. Norris, M. Kuwata-Gonokami and W.E. Moerner
Applied Physics Letters, 71 (3): 297-299, Melville, NY: American Institute of Physics, 1997.
Optical properties of semiconductor nanocrystals (quantum dots)
David J. Norris, M.G. Bawendi and L.E. Brus
In Molecular Electronics, edited by Jortner, J., and M. Ratner, 281-323, Oxford: Blackwell Science, 1997.

1996

Photoluminescence spectroscopy of single CdSe nanocrystallite quantum dots
S.A. Empedocles, David J. Norris and M.G. Bawendi
Physical Review Letters, 77 (18): 3873-3876, New York, NY: American Physical Society, 1996.
Band-edge exciton in quantum dots of semiconductors with a degenerate valence band: Dark and light exciton states
Alexander L. Efros, M. Rosen, M. Kuno, M. Nirmal, David J. Norris and M.G. Bawendi
Physical Review B, Condensed Matter and Materials Physics, 54 (7): 4843-4856, Ridge, NY: American Physical Society, 1996.
Size dependence of exciton fine structure in CdSe quantum dots
David J. Norris, Al.L. Efros, M. Rosen and M.G. Bawendi
Physical Review B, Condensed Matter and Materials Physics, 53 (24): 16347-16354, Ridge, NY: American Physical Society, 1996.
Three-dimensional imaging of single molecules solvated in pores of poly(acrylamide) gels
Robert M. Dickson, David J. Norris, Yih-Lin Tzeng and W.E. Moerner
Science, 274 (5289): 966-969, Washington, DC: American Association for the Advancement of Science, 1996.
Single molecules solvated in pores of polyacrylamide gels
Robert M. Dickson, David J. Norris, Y.-L. Tzeng, R. Sakowicz, L.S.B. Goldstein and W.E. Moerner
Molecular Crystals and Liquid Crystals, 291 (1): 31-39, Philadelphia, PA: Taylor & Francis, 1996.
Measurement and assignment of the size-dependent optical spectrum in CdSe quantum dots
David J. Norris and M.G. Bawendi
Physical Review B, Condensed Matter and Materials Physics, 53 (24): 16338, Ridge, NY: American Physical Society, 1996.

1995

Observation of the ‘dark exciton' in CdSe quantum dots
M. Nirmal, David J. Norris, M. Kuno, M.G. Bawendi, Alexander L. Efros and M. Rosen
Physical Review Letters, 75 (20): 3728-3731, New York, NY: American Physical Society, 1995.
Structure in the lowest absorption feature of CdSe quantum dots
David J. Norris and M.G. Bawendi
The Journal of Chemical Physics, 103 (13): 5260-5268, Melville, NY: American Institute of Physics, 1995.
Stark spectroscopy of CdSe nanocrystallites: The significance of transition linewidths
A. Sacra, David J. Norris, C.B. Murray and M.G. Bawendi
The Journal of Chemical Physics, 103 (13): 5236-5245, Melville, NY: American Institute of Physics, 1995.

1994

Measurement of the size dependent hole spectrum in CdSe quantum dots
David J. Norris, A. Sacra, C.B. Murray and M.G. Bawendi
Physical Review Letters, 72 (16): 2612-2615, New York, NY: American Physical Society, 1994.

1993

Size-dependent spectroscopy and photodynamics of some II-VI semiconductor nanocrystallites (quantum dots)
M. Nirmal, Christopher B. Murray, David J. Norris and Moungi G. Bawendi
Proceedings of SPIE, 1861: 280-284, Bellingham, WA: SPIE, 1993.
Surface electronic properties of CdSe nanocrystallites
M. Nirmal, C.B. Murray, David J. Norris and M.G. Bawendi
Zeitschrift für Physik D, Atoms, Molecules and Clusters, 26 (1): 361-363, Berlin: Springer, 1993.
Size-dependent optical spectroscopy of II-VI semiconductor nanocrystallites (quantum dots)
David J. Norris, M. Nirmal, C.B. Murray, A. Sacra and M.G. Bawendi
Zeitschrift für Physik D, Atoms, Molecules and Clusters, 26 (1): 355-357, Berlin: Springer, 1993.
Synthesis and structural characterization of II-VI semiconductor nanocrystallites (quantum dots)
C.B. Murray, M. Nirmal, David J. Norris and M.G. Bawendi
Zeitschrift für Physik D, Atoms, Molecules and Clusters, 26 (Supplement 1): 231-233, Berlin: Springer, 1993.
Synthesis and characterization of nearly monodisperse CdE (E = sulfur, selenium, tellurium) semiconductor nanocrystallite
C.B. Murray, David J. Norris and M.G. Bawendi
Journal of the American Chemical Society, 115 (19): 8706-8715, Washington, DC: American Chemical Society, 1993.
 
 
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