Synthesis of the solution-processed wide band-gap chalcopyrite CuGa(S,Se)(2) thin film and its application to photovoltaics

Authors
Park, Gi SoonPark, Se JinJeong, Jae SeungChu, Van BenHwang, Yun JeongMin, Byoung Koun
Issue Date
2017-01-01
Publisher
ELSEVIER SCIENCE SA
Citation
THIN SOLID FILMS, v.621, pp.70 - 75
Abstract
A wide band-gap chalcopyrite CuGa(S,Se)(2) (CGSSe) thin film was synthesized via the simple solution based method of precursor solution coating and subsequent heat treatment processes. Various characterizations such as X-ray diffraction, UV-vis-NIR spectroscopy, scanning electron microscopy, energy-dispersive X-ray spectroscopy, Hall measurement, and dynamic secondary ion mass spectroscopy revealed a successful formation of the wide band-gap polycrystalline chalcopyrite film with nearly the same amounts of S and Se elements. The synthesized CGSSe film was applied as an absorber layer to the conventional thin film solar cell construction, which yielded an open circuit voltage (V-oc) of 0.52 V, a short circuit current density (J(SC)) of 3.5 mA.cm(-2), and an overall power conversion efficiency (PCE) of 1.0%. The photovoltage was lower than the expected value implying that there is a large voltage loss relative to the wide band-gap (similar to 2.11 eV). It would be attributable to improper combination of the CGSSe absorber film and the CdS buffer layer in the conventional cell architecture, which may promote interface recombination due to an absence of a "spike" band alignment (i.e. conduction band offsets are slight positive values, 0.1 eV< Delta E-c < 0.4 eV) with the CGSSe absorber layer. Moreover, improvements in morphologies, such as enlarged grains and reduced pore sizes, need to be achieved for higher solar cell efficiency. (C) 2016 Elsevier B.V. All rights reserved.
Keywords
SOLAR-CELLS; OPTICAL-PROPERTIES; CUGA(S1-XSEX)2; NANOPARTICLE; ABSORPTION; PRESSURE; ALLOYS; BUFFER; SOLAR-CELLS; OPTICAL-PROPERTIES; CUGA(S1-XSEX)2; NANOPARTICLE; ABSORPTION; PRESSURE; ALLOYS; BUFFER; CuGa(S,Se)(2); Thin film solar cells; Wide band-gap; Solution process
ISSN
0040-6090
URI
https://pubs.kist.re.kr/handle/201004/123225
DOI
10.1016/j.tsf.2016.11.033
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KIST Article > 2017
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