Self-powered copper sulfide/silicon heterojunction photodetectors with high-photoresponse performance

Self-powered copper sulfide/silicon heterojunction photodetectors with high-photoresponse performance

Impressively high-photoresponse performance was observed from copper sulfide/silicon heterojunction photodetectors, which were fabricated by chemical vapor depositing (CVD) p-type copper sulfide (CuxS) thin films onto n-type Si substrates. This CVD technique, being facile, cost-effective, low-temper...

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Bibliographic Details
Main Authors: Der-Yuh Lin, Yu-Tai Shih, De-Jin Qiu, Yee-Mou Kao, Chia-Feng Lin, Sheng-Beng Hwang, Ming-Cheng Kao
Format: Article
Language:English
Published: AIP Publishing LLC 2025-06-01
Series:APL Materials
Online Access:http://dx.doi.org/10.1063/5.0268066
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Summary:Impressively high-photoresponse performance was observed from copper sulfide/silicon heterojunction photodetectors, which were fabricated by chemical vapor depositing (CVD) p-type copper sulfide (CuxS) thin films onto n-type Si substrates. This CVD technique, being facile, cost-effective, low-temperature, and scalable, provides a reliable method for large-scale production. The CuxS films had desirable crystalline quality with a crystal structure of hexagonal covellite belonging to the P63/mmc space group. Temperature-dependent I–V measurements showed that the CuxS thin films behave as a degenerate semiconductor, and the p-CuxS/n-Si heterojunctions resembled a Schottky diode. The energy band diagrams of the p-CuxS/n-Si heterojunctions depicted a Schottky barrier of 1.52 eV and a built-in voltage of 1.27 V within the depletion region. The power conversion efficiency (PCE) of the p-CuxS/n-Si heterostructures was determined to be 2.52%. Thus, as photovoltaic devices, the PCE exceeded the reported values for CuO/Si, Cu2O/Si, and Cu2Se/Si systems. Analysis of the photoelectric properties showed that the p-CuxS/n-Si photodetectors have a good self-powered attribute, displaying rapid, reproducible, sensitive, and robust photoresponse performance. Furthermore, the Si substrate causes simplification in coupling with well-developed Si electronics. Thus, p-CuxS/n-Si heterojunction photodetectors are promising for applications in optoelectronics.
ISSN:2166-532X

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