光探测
宽带
光电探测器
材料科学
光电子学
极化(电化学)
异质结
范德瓦尔斯力
光通信
光子学
等离子体子
光电二极管
光学
工作(物理)
光隔离器
纳米光子学
光学物理学
光伏
比探测率
红外线的
集成光学
作者
Shangqing Xu,Cheng Qi,Jinpeng Zhao,Weidong Dai,Liming Zhang,Yipeng Zhao,Yicheng Wang,Xing Xu,Weichang Zhou,Honglai Li,Liang Ma
标识
DOI:10.1021/acsami.6c08706
摘要
Polarization-sensitive photodetectors that simultaneously deliver self-powered operation, broadband response, and high polarization selectivity remain challenging due to intrinsic trade-offs between carrier separation efficiency and anisotropic photoresponse in low-symmetry materials. Here, we report a CuI/ReS2 van der Waals heterojunction photodetector that addresses these challenges through a synergistic approach based on interface-engineered built-in electric fields coupled with intrinsic in-plane anisotropy. The heterojunction enables efficient photocarrier separation, while the dark current is effectively suppressed, resulting in stable self-powered operation. Under 365 nm illumination at zero bias voltage, the photodetector exhibits an open-circuit voltage of −175 mV, a short-circuit current of 25 pA, and a responsivity of 8.02 mA/W. At a bias voltage of 1 V, the photodetector demonstrates broadband photodetection from 365 to 810 nm, with a peak responsivity of 590.59 mA/W, a detectivity of 6.18 × 1010 Jones, an on/off current ratio of 103, and rapid rise and decay times of 7.93 and 8.73 ms. Moreover, the CuI/ReS2 photodetector exhibits polarization sensitivity, achieving a polarization ratio of 2.84 at 660 nm. We demonstrate polarization-encoded imaging, highlighting the capability of the device for real-time optical information processing. This work demonstrates a feasible strategy for integrating self-powered operation, broadband detection, and polarization sensitivity, offering a promising platform for compact intelligent optoelectronic systems.
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