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Chargeable photoconductivity in Van der Waals heterojunctions

Authors :
Jiang, Yucheng
He, Anpeng
Chen, Yu
Liu, Guozhen
Lu, Hao
Zhao, Run
Long, Mingshen
Gao, Ju
Wu, Quanying
Ge, Xiaotian
Ning, Jiqiang
Hu, Weida
Publication Year :
2020
Publisher :
arXiv, 2020.

Abstract

Van der Waals (vdW) heterojunctions, based on two-dimensional (2D) materials, show great potential for the development of eco-friendly and high-efficiency nano-devices. Considerable research has been performed and has reported valuable applications of photovoltaic cells, photodetectors, etc. However, simultaneous energy conversion and storage in a single device has not been achieved. Here, we demonstrate a simple strategy to construct a vdW p-n junction between a WSe2 layer and quasi-2D electron gas. After once optical illumination, the device stores the light-generated electrons and holes for up to seven days, and then releases a very large photocurrent of 2.9 mA with bias voltage applied in darkness; this is referred to as chargeable photoconductivity (CPC), which completely differs from any previously observed photoelectric phenomenon. In normal photoconductivity, the recombination of electron-hole pairs takes place at the end of their lifetime, causing a release of heat; in contrast, infinite-lifetime photocarriers can be generated in CPC devices without a thermal loss. The photoelectric conversion and storage are completely self-excited during the charging process. The ratio between currents in full- and empty-energy states below the critical temperature reaches as high as 109, with an external quantum efficiency of 4410000% during optical charging. A theoretical model developed to explain the mechanism of this effect is in good agreement with the experimental data. This work paves a path towards storage-type photoconductors and high-efficiency entropy-decreasing devices.

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....49c31dd14a0a05531f790ead8787b825
Full Text :
https://doi.org/10.48550/arxiv.2001.04690