[removed][removed]Boosting solar-cell efficiency with quantum-dot-based nanotechnology Seth Hubbard and Ryne Raffaelle - Compound semiconductor - Document - PDFSEARCH.IO - Document Search Engine

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	[removed][removed]Boosting solar-cell efficiency with quantum-dot-based nanotechnology Seth Hubbard and Ryne Raffaelle Add to Reading List Document Date: 2014-06-20 20:43:53 Open Document File Size: 1,01 MB Share Result on Facebook City Rochester / Nanomaterial / / Company Quantum / Technology’s NanoPower Research Laboratories / Ge / / Facility Rochester Institute of Technology’s NanoPower Research Laboratories / Institute of Technology / / IndustryTerm energy storage / solar photovoltaic devices / energy conversion / space technology / conversion systems / lower-energy photons / nanomaterials and devices / energy technologies / energy / terrestrial and extraterrestrial applications / / Movie D. V / / MusicGroup Figure / / Organization Rochester Institute of Technology / NPRL Rochester Institute of Technology / US Department of Energy / US Government / National Center for Photovoltaics / Ryne Raffaelle National Center for Photovoltaics National Renewable Energy Laboratory Golden / / Person David Forbes / N. Lopez / C. D. Farmer / A. Korostyshevsky / V / P. G. Linares / A. Luque / P. Diaz / Ryne Raffaelle Inserting / J. Diaz / V / E. Canovas / J. F. Geisz / Chris Bailey / Cory Cress / John Anderson / Stephen Polly / Seth Hubbard / / Position Author / professor of physics / director / photovoltaics group leader / D. J. / Farmer / / Technology semiconductor / alpha / quantum dots / radiation / Nanomaterial-based energy technologies / / SocialTag Energy conversion Compound semiconductors Quantum electronics Indium gallium phosphide Solar cell Multijunction photovoltaic cell Quantum dot solar cell Gallium arsenide Indium gallium arsenide Chemistry