2013
DOI: 10.1038/ncomms2509
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GaAs nanopillar-array solar cells employing in situ surface passivation

Abstract: Arrays of III–V direct-bandgap semiconductor nanopillars represent promising photovoltaic candidates due to their inherent high optical absorption coefficients and minimized reflection arising from light trapping, efficient charge collection in the radial direction and the ability to synthesize them on low-cost platforms. However, the increased surface area results in surface states that hamper the power conversion efficiency. Here, we report the first demonstration of GaAs nanopillar-array photovoltaics emplo… Show more

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Cited by 227 publications
(206 citation statements)
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“…To date, only a few works report lasing from electrically excited NWs 4,43 . However, radial p-n junctions in GaAs-based NWs exist driven mostly by potential applications in NW photovoltaics 44 . The availability of such materials provides much promise for the future development of electrically driven, compact III/V NW-laser sources grown site selectively on silicon photonic hardware with the potential for NWs to make a breakthrough in the development of optical interconnects.…”
Section: Discussionmentioning
confidence: 99%
“…To date, only a few works report lasing from electrically excited NWs 4,43 . However, radial p-n junctions in GaAs-based NWs exist driven mostly by potential applications in NW photovoltaics 44 . The availability of such materials provides much promise for the future development of electrically driven, compact III/V NW-laser sources grown site selectively on silicon photonic hardware with the potential for NWs to make a breakthrough in the development of optical interconnects.…”
Section: Discussionmentioning
confidence: 99%
“…While SiO 2 offers remarkable surface passivation properties for silicon 10 , a comparable solution for III-V semiconductors remains absent. On the other hand, low-defect single-crystal nanostructures can be grown with atomically flat surfaces and in situ surface passivation via higher band gap cladding layers 11,12 , which have historically proven to provide the best passivation for III-V materials. With tiny footprints, nanostructures incur minimal real estate cost while offering full photonic functionality.…”
mentioning
confidence: 99%
“…The interesting structural, electronic and optical properties of free-standing III-V nanowires have generated significant interest and inspired the design of a wide variety of proposed applications [1][2][3][4][5] . The Vapour-Liquid-Solid (VLS) mechanism is widely used to fabricate…”
Section: Introductionmentioning
confidence: 99%