High‐Responsivity Natural‐Electrolyte Undersea Photoelectrochemical Photodetector with Self‐Powered Cu@GaN Nanowires Network (Adv. Funct. Mater. 29/2023)

Han Chen,Zefeng Lin, Huanguang Qiu,Yan Tang,Shini Yang,Jingtian Zhao,Qicheng Zhou,Jun Wang,Guozhen Liu,Yang Zhao,Dongsheng Chen, Zhibin Luo,Feiya Xu,Shengli Huang,Xiaohong Chen,Shuping Li,Duanjun Cai,Junyong Kang

Advanced Functional Materials（2023）

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Abstract

Underwater Optical Communication In article 2302872, Duanjun Cai, Shengli Huang, and co-workers propose a novel type electrolyte-free and self-powered photoelectrochemical photodetector with [email protected] nanowires network for undersea optical communication. A Schottky junction at the Cu/GaN interface enables a narrowed band detection on blue light as well as efficient carrier separation. A high responsivity up to 5.04 mA W−1 is achieved and the device works stably in real undersea circumstance near Pacific Ocean.

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Key words

cu@gan,natural‐electrolyte

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