High responsivity photodetectors based on graphene/WSe 2 heterostructure by photogating effect

Graphene, with its zero-bandgap electronic structure, is a highly promising ultra-broadband light absorbing material. However, the performance of graphene-based photodetectors is limited by weak absorption efficiency and rapid recombination of photoexcited carriers, leading to poor photodetection pe...

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Veröffentlicht in:	Chinese physics B 2024-01, Vol.33 (1), p.18501
Hauptverfasser:	Li 李, Shuping 淑萍, Lei 雷, Ting 挺, Yan 严, Zhongxing 仲兴, Wang 王, Yan 燕, Zhang 张, Like 黎可, Tu 涂, Huayao 华垚, Shi 时, Wenhua 文华, Zeng 曾, Zhongming 中明
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creator	Li 李, Shuping 淑萍 Lei 雷, Ting 挺 Yan 严, Zhongxing 仲兴 Wang 王, Yan 燕 Zhang 张, Like 黎可 Tu 涂, Huayao 华垚 Shi 时, Wenhua 文华 Zeng 曾, Zhongming 中明
description	Graphene, with its zero-bandgap electronic structure, is a highly promising ultra-broadband light absorbing material. However, the performance of graphene-based photodetectors is limited by weak absorption efficiency and rapid recombination of photoexcited carriers, leading to poor photodetection performance. Here, inspired by the photogating effect, we demonstrated a highly sensitive photodetector based on graphene/WSe 2 vertical heterostructure where the WSe 2 layer acts as both the light absorption layer and the localized grating layer. The graphene conductive channel is induced to produce more carriers by capacitive coupling. Due to the strong light absorption and high external quantum efficiency of multilayer WSe 2 , as well as the high carrier mobility of graphene, a high photocurrent is generated in the vertical heterostructure. As a result, the photodetector exhibits ultra-high responsivity of 3.85 × 10 4 A/W and external quantum efficiency of 1.3 × 10 7 %. This finding demonstrates that photogating structures can effectively enhance the sensitivity of graphene-based photodetectors and may have great potential applications in future optoelectronic devices.
doi_str_mv	10.1088/1674-1056/acfa84
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title	High responsivity photodetectors based on graphene/WSe 2 heterostructure by photogating effect
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