Ragip Pala
Ragip Pala
Bestätigte E-Mail-Adresse bei caltech.edu - Startseite
TitelZitiert vonJahr
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
A nonvolatile plasmonic switch employing photochromic molecules
RA Pala, KT Shimizu, NA Melosh, ML Brongersma
Nano Letters 8 (5), 1506-1510, 2008
Gate-tunable conducting oxide metasurfaces
YW Huang, HWH Lee, R Sokhoyan, RA Pala, K Thyagarajan, S Han, ...
Nano letters 16 (9), 5319-5325, 2016
Nanoscale conducting oxide PlasMOStor
HW Lee, G Papadakis, SP Burgos, K Chander, A Kriesch, R Pala, ...
Nano letters 14 (11), 6463-6468, 2014
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
A submicron plasmonic dichroic splitter
JSQ Liu, RA Pala, F Afshinmanesh, W Cai, ML Brongersma
Nature communications 2, 525, 2011
Photocurrent mapping of near-field optical antenna resonances
ES Barnard, RA Pala, ML Brongersma
Nature Nanotechnology 6 (9), 588, 2011
Strong modification of quantum dot spontaneous emission via gap plasmon coupling in metal nanoslits
YC Jun, R Pala, ML Brongersma
The Journal of Physical Chemistry C 114 (16), 7269-7273, 2009
Measurement of minority-carrier diffusion lengths using wedge-shaped semiconductor photoelectrodes
RA Pala, AJ Leenheer, M Lichterman, HA Atwater, NS Lewis
Energy & Environmental Science 7, 3424-3430, 2014
Dual-gated active metasurface at 1550 nm with wide (> 300°) phase tunability
G Kafaie Shirmanesh, R Sokhoyan, RA Pala, HA Atwater
Nano letters 18 (5), 2957-2963, 2018
Probing molecular junctions using surface plasmon resonance spectroscopy
KT Shimizu, RA Pala, JD Fabbri, ML Brongersma, NA Melosh
Nano letters 6 (12), 2797-2803, 2006
Dynamically controlled Purcell enhancement of visible spontaneous emission in a gated plasmonic heterostructure
YJ Lu, R Sokhoyan, WH Cheng, GK Shirmanesh, AR Davoyan, RA Pala, ...
Nature communications 8 (1), 1631, 2017
Resonant thermoelectric nanophotonics
KW Mauser, S Kim, S Mitrovic, D Fleischman, R Pala, KC Schwab, ...
Nature Nanotechnology, 2017
Quantifying the role of surface plasmon excitation and hot carrier transport in plasmonic devices
G Tagliabue, AS Jermyn, R Sundararaman, AJ Welch, JS DuChene, ...
Nature communications 9 (1), 3394, 2018
A scanning probe investigation of the role of surface motifs in the behavior of p-WSe 2 photocathodes
JM Velazquez, J John, DV Esposito, A Pieterick, R Pala, G Sun, X Zhou, ...
Energy & Environmental Science 9 (1), 164-175, 2016
Omnidirectional and broadband absorption enhancement from trapezoidal Mie resonators in semiconductor metasurfaces
RA Pala, S Butun, K Aydin, HA Atwater
Scientific Reports 6 (31451), 2016
Optical modulating device having gate structure
HAN Seunghoon, YW Huang, HA Atwater, HW Lee, R Sohkoyan, ...
US Patent 9,632,216, 2017
Voltage supply for semiconductor memory
M Gall, A Schaefer
US Patent 6,690,612, 2004
Optical modulating device and system employing same
LEE Duhyun, P Ragip, H Atwater, M Alam, NA Byunghoon, ...
US Patent App. 15/866,998, 2018
Photovoltaic light management with ordered and disordered metal and dielectric nanostructures
HA Atwater, DM Callahan, KA Whitesell, R Pala
Optical Instrumentation for Energy and Environmental Applications, JM4B. 1, 2012
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