Henry Everitt
Henry Everitt
Army Research Lab, Rice University, Duke University
Verified email at
Cited by
Cited by
Aluminum for plasmonics
MW Knight, NS King, L Liu, HO Everitt, P Nordlander, NJ Halas
ACS nano 8 (1), 834-840, 2014
Excitonic fine structure and recombination dynamics in single-crystalline
A Teke, Ü Özgür, S Doğan, X Gu, H Morkoç, B Nemeth, J Nause, ...
Physical Review B 70 (19), 195207, 2004
Aluminum plasmonic nanoantennas
MW Knight, L Liu, Y Wang, L Brown, S Mukherjee, NS King, HO Everitt, ...
Nano letters 12 (11), 6000-6004, 2012
Enhancement of spontaneous recombination rate in a quantum well by resonant surface plasmon coupling
A Neogi, CW Lee, HO Everitt, T Kuroda, A Tackeuchi, E Yablonovitch
Physical Review B 66 (15), 153305, 2002
Product selectivity in plasmonic photocatalysis for carbon dioxide hydrogenation
X Zhang, X Li, D Zhang, NQ Su, W Yang, HO Everitt, J Liu
Nature communications 8 (1), 14542, 2017
Aluminum nanocrystals as a plasmonic photocatalyst for hydrogen dissociation
L Zhou, C Zhang, MJ McClain, A Manjavacas, CM Krauter, S Tian, F Berg, ...
Nano letters 16 (2), 1478-1484, 2016
UV plasmonic behavior of various metal nanoparticles in the near-and far-field regimes: geometry and substrate effects
JM Sanz, D Ortiz, R Alcaraz De La Osa, JM Saiz, F González, AS Brown, ...
The Journal of Physical Chemistry C 117 (38), 19606-19615, 2013
Refractive indices and absorption coefficients of alloys
CW Teng, JF Muth, Ü Özgür, MJ Bergmann, HO Everitt, AK Sharma, C Jin, ...
Applied Physics Letters 76 (8), 979-981, 2000
Shallow acceptor complexes in p-type ZnO
JG Reynolds, CL Reynolds Jr, A Mohanta, JF Muth, JE Rowe, HO Everitt, ...
Applied physics letters 102 (15), 152114, 2013
Plasmon-enhanced catalysis: distinguishing thermal and nonthermal effects
X Zhang, X Li, ME Reish, D Zhang, NQ Su, Y Gutiérrez, F Moreno, ...
Nano letters 18 (3), 1714-1723, 2018
Fano resonant aluminum nanoclusters for plasmonic colorimetric sensing
NS King, L Liu, X Yang, B Cerjan, HO Everitt, P Nordlander, NJ Halas
ACS nano 9 (11), 10628-10636, 2015
Aluminum nanocrystals
MJ McClain, AE Schlather, E Ringe, NS King, L Liu, A Manjavacas, ...
Nano letters 15 (4), 2751-2755, 2015
Development and applications of materials exhibiting photonic bandgaps
CM Bowden
J. Opt. Soc. Am. 12, 283, 1993
Shape matters: plasmonic nanoparticle shape enhances interaction with dielectric substrate
P Albella, B Garcia-Cueto, F González, F Moreno, PC Wu, TH Kim, ...
Nano letters 11 (9), 3531-3537, 2011
Stimulated emission and time-resolved photoluminescence in rf-sputtered ZnO thin films
Ü Özgür, A Teke, C Liu, SJ Cho, H Morkoç, HO Everitt
Applied Physics Letters 84 (17), 3223-3225, 2004
Ultraviolet nanoplasmonics: a demonstration of surface-enhanced Raman spectroscopy, fluorescence, and photodegradation using gallium nanoparticles
Y Yang, JM Callahan, TH Kim, AS Brown, HO Everitt
Nano letters 13 (6), 2837-2841, 2013
Gallium plasmonics: deep subwavelength spectroscopic imaging of single and interacting gallium nanoparticles
MW Knight, T Coenen, Y Yang, BJM Brenny, M Losurdo, AS Brown, ...
ACS nano 9 (2), 2049-2060, 2015
Control of coherent acoustic phonons in semiconductor quantum wells
Ü Özgür, CW Lee, HO Everitt
Physical Review Letters 86 (24), 5604, 2001
Rhodium nanoparticles for ultraviolet plasmonics
AM Watson, X Zhang, R Alcaraz de La Osa, JM Sanz, F González, ...
Nano letters 15 (2), 1095-1100, 2015
Terahertz digital holography using angular spectrum and dual wavelength reconstruction methods
MS Heimbeck, MK Kim, DA Gregory, HO Everitt
Optics Express 19 (10), 9192-9200, 2011
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