Towards low-cost high-efficiency GaAs photovoltaics and photoelectrodes grown via vapor transport from a solid source

Boucher, Jason; Ritenour, Andrew; Boettcher, Shannon W.

Title: Towards low-cost high-efficiency GaAs photovoltaics and photoelectrodes grown via vapor transport from a solid source

Conference · Mon Apr 29 00:00:00 EDT 2013 · Proceedings of the SPIE

OSTI ID:1076869

Boucher, Jason ^[1]; Ritenour, Andrew ^[1]; Boettcher, Shannon W. ^[1]

University of Oregon

Towards low-cost high-efficiency GaAs photovoltaics and photoelectrodes grown via vapor transport from a solid source GaAs is an attractive material for thin-film photovoltaic applications, but is not widely used for terrestrial power generation due to the high cost of metal-organic chemical vapor deposition (MOCVD) techniques typically used for growth. Close space vapor transport is an alternative that allows for rapid growth rates of III-V materials, and does not rely on the toxic and pyrophoric precursors used in MOCVD. We characterize CSVT films of GaAs using photoelectrochemical current-voltage and quantum efficiency measurements. Hole diffusion lengths which exceed 1.5 um are extracted from internal quantum efficiency measurements using the Gartner model. Device physics simulations suggest that solar cells based on these films could reach efficiencies exceeding 24 %. To reach this goal, a more complete understanding of the electrical properties and characterization of defects will be necessary, including measurements on complete solid-state devices. Doping of films is achieved by using source material containing the desired impurity (e.g., Te or Zn). We discuss strategies for growing III-V materials on inexpensive substrates that are not lattice-matched to GaAs.

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Research Organization:: Univ. of Oregon, Eugene, OR (United States)

Sponsoring Organization:: USDOE Office of Energy Efficiency and Renewable Energy (EERE)

Contributing Organization:: University of Oregon

DOE Contract Number:: EE0005957

OSTI ID:: 1076869

Report Number(s):: DOE/EE0005957/1

Journal Information:: Proceedings of the SPIE, Conference: Defense Sensing and Security, Baltimore, 4/29-5/2/13

Country of Publication:: United States

Language:: English

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