Optical properties of gold nanorings J Aizpurua, P Hanarp, DS Sutherland, M Käll, GW Bryant, ... Physical review letters 90 (5), 057401, 2003 | 1345 | 2003 |
Plasmons in nearly touching metallic nanoparticles: singular response in the limit of touching dimers I Romero, J Aizpurua, GW Bryant, FJG Abajo Optics express 14 (21), 9988-9999, 2006 | 983 | 2006 |
Metal‐nanoparticle plasmonics M Pelton, J Aizpurua, G Bryant Laser & Photonics Reviews 2 (3), 136-159, 2008 | 848 | 2008 |
Optical properties of coupled metallic nanorods for field-enhanced spectroscopy J Aizpurua, GW Bryant, LJ Richter, FJ García de Abajo, BK Kelley, ... Physical Review B—Condensed Matter and Materials Physics 71 (23), 235420, 2005 | 774 | 2005 |
Semiconductor-metal nanoparticle molecules: Hybrid excitons and the nonlinear Fano effect W Zhang, AO Govorov, GW Bryant Physical review letters 97 (14), 146804, 2006 | 735 | 2006 |
Exciton− plasmon interaction and hybrid excitons in semiconductor− metal nanoparticle assemblies AO Govorov, GW Bryant, W Zhang, T Skeini, J Lee, NA Kotov, JM Slocik, ... Nano letters 6 (5), 984-994, 2006 | 636 | 2006 |
Mapping the plasmon resonances of metallic nanoantennas GW Bryant, FJ García de Abajo, J Aizpurua Nano letters 8 (2), 631-636, 2008 | 524 | 2008 |
Electronic structure of ultrasmall quantum-well boxes GW Bryant Physical review letters 59 (10), 1140, 1987 | 439 | 1987 |
Excitons in quantum boxes: Correlation effects and quantum confinement GW Bryant Physical Review B 37 (15), 8763, 1988 | 385 | 1988 |
Introduction to metal-nanoparticle plasmonics M Pelton, GW Bryant John Wiley & Sons, 2013 | 326 | 2013 |
Optical response of strongly coupled quantum dot− metal nanoparticle systems: double peaked fano structure and bistability RD Artuso, GW Bryant Nano letters 8 (7), 2106-2111, 2008 | 311 | 2008 |
Hydrogenic impurity states in quantum-well wires GW Bryant Physical Review B 29 (12), 6632, 1984 | 275 | 1984 |
Observation of optical Shockley-like surface states in photonic superlattices N Malkova, I Hromada, X Wang, G Bryant, Z Chen Optics letters 34 (11), 1633-1635, 2009 | 271 | 2009 |
Strongly coupled quantum dot-metal nanoparticle systems: Exciton-induced transparency, discontinuous response, and suppression as driven quantum oscillator effects RD Artuso, GW Bryant Physical Review B—Condensed Matter and Materials Physics 82 (19), 195419, 2010 | 249 | 2010 |
Electron-hole correlations in semiconductor quantum dots with tight-binding wave functions S Lee, L Jönsson, JW Wilkins, GW Bryant, G Klimeck Physical Review B 63 (19), 195318, 2001 | 231 | 2001 |
Hydrogenic impurity states in quantum-well wires: Shape effects GW Bryant Physical Review B 31 (12), 7812, 1985 | 212 | 1985 |
Size-dependent electronic level structure of InAs nanocrystal quantum dots: Test of multiband effective mass theory U Banin, CJ Lee, AA Guzelian, AV Kadavanich, AP Alivisatos, W Jaskolski, ... The Journal of chemical physics 109 (6), 2306-2309, 1998 | 204 | 1998 |
Exciton–plasmon interactions in quantum dot–gold nanoparticle structures E Cohen-Hoshen, GW Bryant, I Pinkas, J Sperling, I Bar-Joseph Nano letters 12 (8), 4260-4264, 2012 | 166 | 2012 |
Plasmonic properties of metallic nanoparticles: The effects of size quantization E Townsend, GW Bryant Nano Letters 12 (1), 429-434, 2012 | 162 | 2012 |
Bioconjugated Ag nanoparticles and CdTe nanowires: metamaterials with field‐enhanced light absorption J Lee, T Javed, T Skeini, AO Govorov, GW Bryant, NA Kotov Angewandte Chemie 118 (29), 4937-4941, 2006 | 150 | 2006 |