Journal ArticleUnknown
Carrier transport and performance limit of semi-transparent photovoltaics: CuIn1−<i>x</i>Ga<i>x</i>Se2 as a case study
Authors
Author Affiliations
Bangladesh University of Engineering and Technology, University of Michigan, Purdue University West Lafayette, East West University
Published InJournal of Applied Physics
Year2021
Citations8
Abstract
Semi-transparent photovoltaic devices for building integrated applications have the potential to provide simultaneous power generation and natural light penetration. CuIn1−xGaxSe2 has been established as a mature technology for thin-film photovoltaics; however, its potential for Semi-Transparent Photovoltaics (STPV) is yet to be explored. In this paper, we present its carrier transport physics explaining the trend seen in recently published experiments. STPV requires deposition of films of only a few hundred nanometers to make them transparent and manifests several unique properties compared to a conventional thin-film solar cell. Our analysis shows that the short-circuit current, Jsc, is dominated by carriers generated in the depletion region, making it nearly independent of bulk and back-surface recombination. The bulk recombination, which limits the open-circuit voltage…
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