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Arsenide
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221	Optimal Materials and Deposition Technique Lead to Cost-Effective Solar Cell with Best-Ever Conversion Efficiency Based on NREL and Solar Junction technology, the commercial SJ3 concentrator solar cell—with 43.5% conve Add to Reading List Source URL: www.nrel.gov Language: English - Date: 2013-10-02 13:33:46 Semiconductor devices Nitrides Photovoltaics Gallium arsenide Multijunction photovoltaic cell Indium gallium phosphide Gallium nitride Indium gallium arsenide Lattice constant Chemistry Solar cells Energy conversion
222	Energy & Environmental Science View Article Online Published on 17 April[removed]Downloaded by California Institute of Technology on[removed]:49:04. Add to Reading List Source URL: daedalus.caltech.edu Language: English - Date: 2013-11-13 14:50:09 Inorganic compounds Semiconductor devices Phosphides Gallium arsenide Nanowire Light-emitting diode Indium gallium phosphide Gallium nitride Gallium phosphide Chemistry Solar cells Compound semiconductors
223	21 January[removed]Volume 102 Number 3 Applied Physics Letters Add to Reading List Source URL: daedalus.caltech.edu Language: English - Date: 2013-02-07 19:44:45 Semiconductor devices Compound semiconductors Inorganic compounds Multijunction photovoltaic cell Indium gallium arsenide Gallium arsenide Band gap Heterojunction Indium gallium phosphide Chemistry Solar cells Energy conversion
224	APPLIED PHYSICS LETTERS 89, 102106 共2006兲 Direct-bonded GaAs/ InGaAs tandem solar cell Katsuaki Tanabe,a兲 Anna Fontcuberta i Morral,b兲 and Harry A. Atwaterb兲 Thomas J. Watson Laboratory of Applied Physics, Cal Add to Reading List Source URL: daedalus.caltech.edu Language: English - Date: 2006-11-13 12:48:05 Energy conversion Optoelectronics Inorganic compounds Indium gallium arsenide Gallium arsenide Multijunction photovoltaic cell Ohmic contact Indium gallium phosphide Heterojunction Chemistry Solar cells Semiconductor devices
225	Microsoft Word - Electronic Delivery Cover Sheet.docx Add to Reading List Source URL: daedalus.caltech.edu Language: English - Date: 2013-02-26 11:27:44 Inorganic compounds Ultraviolet radiation Energy conversion Quantum efficiency Thin film solar cell Zinc oxide Solar panel Gallium arsenide Amorphous silicon Chemistry Solar cells Photovoltaics
226	Green Photonics Award Paper Simulations of solar cell absorption enhancement using resonant modes of a nanosphere array Jonathan Grandidiera, Michael G. Decegliea, Dennis M. Callahana, Harry A. Atwaterab Thomas J. Wats Add to Reading List Source URL: daedalus.caltech.edu Language: English* - Date: 2012-02-23 12:18:53 Technology Semiconductor devices Energy conversion Optoelectronics Photonics Plasmonic solar cell Quantum efficiency Light-emitting diode Gallium arsenide Physics Chemistry Solar cells
227	Submission Format for IMS2004 (Title in 18-point Times font) Add to Reading List Source URL: daedalus.caltech.edu Language: English - Date: 2014-01-15 17:19:07 Solar cells Technology Energy conversion Gallium arsenide Multijunction photovoltaic cell Passivation Light-emitting diode Wafer Chemistry Semiconductor devices Energy
228	OPTOELECTRONIC DESIGN OF MULTIJUNCTION WIRE-ARRAY SOLAR CELLS[removed] Add to Reading List Source URL: daedalus.caltech.edu Language: English - Date: 2013-09-10 11:45:07 Energy conversion Compound semiconductors Inorganic compounds Gallium arsenide Multijunction photovoltaic cell Light-emitting diode Nanowire Gallium nitride Photovoltaics Chemistry Solar cells Semiconductor devices
229	This article has been accepted for inclusion in a future issue of this journal. Content is final as presented, with the exception of pagination. IEEE JOURNAL OF PHOTOVOLTAICS 1 Gallium Arsenide Solar Cell Absorption Add to Reading List Source URL: daedalus.caltech.edu Language: English - Date: 2012-02-01 19:34:27 Energy conversion Compound semiconductors Inorganic compounds Gallium arsenide Multijunction photovoltaic cell Photovoltaics Light-emitting diode Plasmonic solar cell Thin film solar cell Chemistry Solar cells Semiconductor devices
230	APPLIED PHYSICS LETTERS 98, 093502 共2011兲 Wide-band-gap InAlAs solar cell for an alternative multijunction approach Marina S. Leite,1,a兲 Robyn L. Woo,2 William D. Hong,2 Daniel C. Law,2 and Harry A. Atwater1 1 Add to Reading List Source URL: daedalus.caltech.edu Language: English - Date: 2011-03-25 11:58:32 Semiconductor devices Nitrides Inorganic compounds Multijunction photovoltaic cell Indium gallium arsenide Band gap Gallium arsenide Indium gallium phosphide Heterojunction Chemistry Solar cells Energy conversion

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