Composition dependence of electronic defects in CuGaS2

IF 8 2区材料科学 Q1 ENERGY & FUELS Progress in Photovoltaics Pub Date : 2024-02-20 DOI:10.1002/pip.3778

Damilola Adeleye, Mohit Sood, Michele Melchiorre, Alice Debot, Susanne Siebentritt

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Abstract

CuGaS₂ films grown by physical vapor deposition were studied by photoluminescence (PL) spectroscopy, using excitation intensity and temperature-dependent analyses. We observed free and bound exciton recombinations, three donor-to-acceptor (DA) transitions, and deep-level transitions. The DA transitions at ~2.41, 2.398, and ~2.29 eV are attributed to a common donor level ~35 meV and two shallow acceptors at ~75 and ~90 meV and a deeper acceptor at 210 meV above the valence band. This electronic structure is similar to those of other chalcopyrite materials. The observed DA transitions are accompanied by several phonon replicas. The Cu-rich and near-stoichiometric CuGaS₂ films are dominated by transitions involving the acceptor at 210 meV. All films show deep-level transitions at ~2.15 and 1.85 eV due to broad deep defect bands. The slightly Cu-deficient films were dominated by intense transitions at ~2.45 eV, which were attributed to excitonic transitions, and a broad defect transition at 2.15 eV.

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CuGaS2 中电子缺陷的成分依赖性

通过光致发光（PL）光谱，利用激发强度和温度相关分析，对物理气相沉积法生长的 CuGaS2 薄膜进行了研究。我们观察到自由和束缚激子重组、三个供体到受体（DA）跃迁以及深层跃迁。在 ~2.41, 2.398 和 ~2.29 eV 的 DA 转变归因于一个 ~35 meV 的共同供体水平和两个分别位于 ~75 和 ~90 meV 的浅层受体以及一个位于价带上方 210 meV 的深层受体。这种电子结构与其他黄铜矿材料类似。观察到的 DA 转变伴随着几个声子复制品。富铜和接近全度的 CuGaS2 薄膜主要是在 210 meV 处发生涉及受体的转变。由于深层缺陷带较宽，所有薄膜都在 ~2.15 和 1.85 eV 处出现了深层跃迁。略微缺铜的薄膜主要在 ~2.45 eV 处发生激子跃迁，以及在 2.15 eV 处发生宽缺陷跃迁。

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来源期刊

Progress in Photovoltaics 工程技术-能源与燃料

CiteScore

18.10

自引率

7.50%

发文量

130

审稿时长

5.4 months

期刊介绍： Progress in Photovoltaics offers a prestigious forum for reporting advances in this rapidly developing technology, aiming to reach all interested professionals, researchers and energy policy-makers. The key criterion is that all papers submitted should report substantial “progress” in photovoltaics. Papers are encouraged that report substantial “progress” such as gains in independently certified solar cell efficiency, eligible for a new entry in the journal''s widely referenced Solar Cell Efficiency Tables. Examples of papers that will not be considered for publication are those that report development in materials without relation to data on cell performance, routine analysis, characterisation or modelling of cells or processing sequences, routine reports of system performance, improvements in electronic hardware design, or country programs, although invited papers may occasionally be solicited in these areas to capture accumulated “progress”.

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