Follow
Albert Polman
Albert Polman
Center for Nanophotonics, NWO-Institute AMOLF
Verified email at amolf.nl - Homepage
Title
Cited by
Cited by
Year
Plasmonics for improved photovoltaic devices
HA Atwater, A Polman
Nature materials 9 (3), 205-213, 2010
102352010
Photovoltaic materials: Present efficiencies and future challenges
A Polman, M Knight, EC Garnett, B Ehrler, WC Sinke
Science 352 (6283), aad4424, 2016
20162016
Plasmonic solar cells
KR Catchpole, A Polman
Optics express 16 (26), 21793-21800, 2008
20032008
Erbium implanted thin film photonic materials
A Polman
Journal of applied physics 82 (1), 1-39, 1997
15201997
Plasmon slot waveguides: Towards chip-scale propagation with subwavelength-scale localization
JA Dionne, LA Sweatlock, HA Atwater, A Polman
Physical Review B—Condensed Matter and Materials Physics 73 (3), 035407, 2006
13942006
Photonic design principles for ultrahigh-efficiency photovoltaics
A Polman, HA Atwater
Nature materials 11 (3), 174-177, 2012
11052012
Design principles for particle plasmon enhanced solar cells
KR Catchpole, A Polman
Applied Physics Letters 93 (19), 2008
10742008
Broadband omnidirectional antireflection coating based on subwavelength surface Mie resonators
P Spinelli, MA Verschuuren, A Polman
Nature communications 3 (1), 692, 2012
9842012
Light trapping in ultrathin plasmonic solar cells
VE Ferry, MA Verschuuren, HBT Li, E Verhagen, RJ Walters, REI Schropp, ...
Optics express 18 (102), A237-A245, 2010
8002010
Tunable light trapping for solar cells using localized surface plasmons
FJ Beck, A Polman, KR Catchpole
Journal of Applied Physics 105 (11), 2009
6892009
Nanophotonics: shrinking light-based technology
AF Koenderink, A Alù, A Polman
Science 348 (6234), 516-521, 2015
6762015
Transparent conducting silver nanowire networks
J Van De Groep, P Spinelli, A Polman
Nano letters 12 (6), 3138-3144, 2012
6472012
Experimental realization of an epsilon-near-zero metamaterial at visible wavelengths
R Maas, J Parsons, N Engheta, A Polman
Nature Photonics 7 (11), 907-912, 2013
5772013
Planar metal plasmon waveguides: frequency-dependent dispersion, propagation, localization, and loss beyond the free electron model
JA Dionne, LA Sweatlock, HA Atwater, A Polman
Physical Review B—Condensed Matter and Materials Physics 72 (7), 075405, 2005
5682005
Defect‐related versus excitonic visible light emission from ion beam synthesized Si nanocrystals in SiO2
KS Min, KV Shcheglov, CM Yang, HA Atwater, ML Brongersma, A Polman
Applied Physics Letters 69 (14), 2033-2035, 1996
5281996
Evolution of light-induced vapor generation at a liquid-immersed metallic nanoparticle
Z Fang, YR Zhen, O Neumann, A Polman, FJ García de Abajo, ...
Nano letters 13 (4), 1736-1742, 2013
5162013
Understanding individual defects in CdTe thin-film solar cells via STEM: from atomic structure to electrical activity
A Polman, M Knight, EC Garnett, B Ehrler, WC Sinke
Science (80-.). 352 (6283), aad4424, 2016
5062016
Room‐temperature electroluminescence from Er‐doped crystalline Si
G Franzo, F Priolo, S Coffa, A Polman, A Carnera
Applied physics letters 64 (17), 2235-2237, 1994
4931994
Rare-earth doped polymers for planar optical amplifiers
LH Slooff, A Van Blaaderen, A Polman, GA Hebbink, SI Klink, ...
Journal of applied physics 91 (7), 3955-3980, 2002
4612002
Plasmonic light trapping in thin-film Si solar cells
P Spinelli, VE Ferry, J Van de Groep, M Van Lare, MA Verschuuren, ...
Journal of Optics 14 (2), 024002, 2012
4602012
The system can't perform the operation now. Try again later.
Articles 1–20