Evidence for the quenching of rapid photoresponse by defect generation in ultraviolet illumination of CuSbS2 films

IF 1.4 4区 物理与天体物理 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY AIP Advances Pub Date : 2024-09-13 DOI:10.1063/5.0227670
Y. Takagaki
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Abstract

Phototransients are investigated for CuSbS2 films with varying the illumination energy. The generation and recombination of photocarriers, which are manifested as changes in the sheet conductivity of the films, take place almost instantaneously for excitation wavelengths of 970 and 633 nm. These rapid responses are, in contrast, absent for the illumination at wavelengths of 375 and 280 nm. In particular, roughly no photoconduction occurs in the case of 280 nm. The sheet conductivity develops thereby random two-level fluctuations following the illumination. Ultraviolet irradiation is thus suggested to generate crystalline defects, giving rise to the quenching of the instantaneous photoresponse caused by their trapping of the photocarriers. The photoresponse in simultaneous illumination at multiple wavelengths is dependent upon the relative intensities of the ultraviolet and visible/infrared components in a nonlinear fashion unless the photo-generated defects are overwhelmed by photocarriers.
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在紫外线照射 CuSbS2 薄膜时通过产生缺陷淬灭快速光响应的证据
研究了不同照明能量下 CuSbS2 薄膜的光传导性。在波长为 970 纳米和 633 纳米的激发下,光载流子的产生和重组几乎是瞬间发生的,并表现为薄膜片状电导率的变化。相反,在波长为 375 纳米和 280 纳米的光照下,则没有这些快速反应。特别是在 280 纳米波长的情况下,几乎没有发生光电导现象。因此,片状导电性在照射后会产生随机的两级波动。因此,紫外线照射会产生晶体缺陷,导致光载流子被捕获,从而熄灭瞬时光响应。在多个波长的同时照射下,光响应以非线性方式取决于紫外线和可见光/红外线成分的相对强度,除非光产生的缺陷被光载体淹没。
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来源期刊
AIP Advances
AIP Advances NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
2.80
自引率
6.20%
发文量
1233
审稿时长
2-4 weeks
期刊介绍: AIP Advances is an open access journal publishing in all areas of physical sciences—applied, theoretical, and experimental. All published articles are freely available to read, download, and share. The journal prides itself on the belief that all good science is important and relevant. Our inclusive scope and publication standards make it an essential outlet for scientists in the physical sciences. AIP Advances is a community-based journal, with a fast production cycle. The quick publication process and open-access model allows us to quickly distribute new scientific concepts. Our Editors, assisted by peer review, determine whether a manuscript is technically correct and original. After publication, the readership evaluates whether a manuscript is timely, relevant, or significant.
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