Edward Barnard
Edward Barnard
The Molecular Foundry, Lawrence Berkeley National Lab
Verified email at
Cited by
Cited by
Plasmonics for extreme light concentration and manipulation
JA Schuller, ES Barnard, W Cai, YC Jun, JS White, ML Brongersma
Nature materials 9 (3), 193-204, 2010
Design of plasmonic thin‐film solar cells with broadband absorption enhancements
RA Pala, J White, E Barnard, J Liu, ML Brongersma
Advanced materials 21 (34), 3504-3509, 2009
Planar lenses based on nanoscale slit arrays in a metallic film
L Verslegers, PB Catrysse, Z Yu, JS White, ES Barnard, ML Brongersma, ...
Nano letters 9 (1), 235-238, 2009
Engineering bright sub-10-nm upconverting nanocrystals for single-molecule imaging
DJ Gargas, EM Chan, AD Ostrowski, S Aloni, MVP Altoe, ES Barnard, ...
Nature nanotechnology 9 (4), 300-305, 2014
Phase-coupled plasmon-induced transparency
RD Kekatpure, ES Barnard, W Cai, ML Brongersma
Physical review letters 104 (24), 243902, 2010
Tuning the color of silicon nanostructures
L Cao, P Fan, ES Barnard, AM Brown, ML Brongersma
Nano letters 10 (7), 2649-2654, 2010
Extraordinary optical absorption through subwavelength slits
JS White, G Veronis, Z Yu, ES Barnard, A Chandran, S Fan, ...
Optics letters 34 (5), 686-688, 2009
Spectral properties of plasmonic resonator antennas
ES Barnard, JS White, A Chandran, ML Brongersma
Optics Express 16 (21), 16529-16537, 2008
Enrichment of molecular antenna triplets amplifies upconverting nanoparticle emission
DJ Garfield, NJ Borys, SM Hamed, NA Torquato, CA Tajon, B Tian, ...
Nature Photonics 12 (7), 402-407, 2018
Continuous-wave upconverting nanoparticle microlasers
A Fernandez-Bravo, K Yao, ES Barnard, NJ Borys, ES Levy, B Tian, ...
Nature nanotechnology 13 (7), 572-577, 2018
Optimization of non-periodic plasmonic light-trapping layers for thin-film solar cells
RA Pala, JSQ Liu, ES Barnard, D Askarov, EC Garnett, S Fan, ...
Nature communications 4, 2095, 2013
Ultralow-threshold, continuous-wave upconverting lasing from subwavelength plasmons
A Fernandez-Bravo, D Wang, ES Barnard, A Teitelboim, C Tajon, J Guan, ...
Nature materials 18 (11), 1172-1176, 2019
Solving dielectric and plasmonic waveguide dispersion relations on a pocket calculator
RD Kekatpure, AC Hryciw, ES Barnard, ML Brongersma
Optics express 17 (26), 24112-24129, 2009
Low irradiance multiphoton imaging with alloyed lanthanide nanocrystals
B Tian, A Fernandez-Bravo, H Najafiaghdam, NA Torquato, MVP Altoe, ...
Nature communications 9 (1), 3082, 2018
py4DSTEM: a software package for four-dimensional scanning transmission electron microscopy data analysis
BH Savitzky, SE Zeltmann, LA Hughes, HG Brown, S Zhao, PM Pelz, ...
Microscopy and Microanalysis 27 (4), 712-743, 2021
Strain-induced room-temperature ferroelectricity in SrTiO 3 membranes
R Xu, J Huang, ES Barnard, SS Hong, P Singh, EK Wong, T Jansen, ...
Nature communications 11 (1), 1-8, 2020
Photocurrent mapping of near-field optical antenna resonances
ES Barnard, RA Pala, ML Brongersma
Nature Nanotechnology 6 (9), 588-593, 2011
Optically Discriminating Carrier-Induced Quasiparticle Band Gap and Exciton Energy Renormalization in Monolayer
K Yao, A Yan, S Kahn, A Suslu, Y Liang, ES Barnard, S Tongay, A Zettl, ...
Physical review letters 119 (8), 087401, 2017
Probing carrier lifetimes in photovoltaic materials using subsurface two-photon microscopy
ES Barnard, ET Hoke, ST Connor, JR Groves, T Kuykendall, Z Yan, ...
Scientific reports 3, 2098, 2013
Metal-dielectric-metal surface plasmon-polariton resonators
A Chandran, ES Barnard, JS White, ML Brongersma
Physical Review B 85 (8), 085416, 2012
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