光探测
材料科学
异质结
光电流
光电子学
光电探测器
暗电流
紫外线
无定形固体
光学
物理
化学
有机化学
作者
Jie Zhang,Zixu Sa,Pengsheng Li,Zhongjun Zhai,Fengjing Liu,Mingxu Wang,Guangcan Wang,Yanxue Yin,Yang Li,Wenxiang Mu,Zhitai Jia,Feng Chen,Zaixing Yang
标识
DOI:10.1002/adom.202302665
摘要
Abstract The persistent photocurrent (PPC) and high carrier concentration are challenging the ultraviolet photodetection behaviors of amorphous InGaO films. Herein, InGaO/PbI 2 heterojunction is constructed by an all‐solution synthesis process to set up a built‐in electric field at the heterojunction interface, which is aimed at the inhibition of PPC, suppression of dark current, and promotion of photogenerated carrier separation. With an optimized In content of 90%, the as‐fabricated InGaO/PbI 2 heterojunction photodetector exhibits excellent self‐powered near‐ultraviolet photodetection behaviors with high I light /I dark ratio of 10 4 , ultralow dark current of 10 −13 A and fast response times of 0.8/0.6 ms. Additionally, benefiting to the all‐solution synthesis process and amorphous characteristic, InGaO/PbI 2 heterojunction can be implanted onto any useful substrates to achieve the specific function of photodetection. The as‐fabricated InGaO/PbI 2 heterojunction flexible self‐powered photodetector exhibits outstanding mechanical flexibility, bending endurance, and photoelectric stability. When the InGaO/PbI 2 heterojunction is implanted onto the transparent substrate, it demonstrates excellent omnidirectional self‐powdered photodetection performance and imaging capability. All results promise all‐solution‐processed InGaO for next‐generation advanced optoelectronics.
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