光电探测器
材料科学
异质结
响应度
超短脉冲
光电子学
红外线的
障碍物
传输(电信)
对偶(语法数字)
纳米尺度
光通信
栅栏
光学
比探测率
响应时间
计算机科学
纳米技术
光子学
作者
Ge Wang,Wenqi Liu,Kaiyue Zhou,Haiyuan Chen,Yuan Pan,Yuan Pan,Jingyi Ma,Ruiyang Xu,Mingtian Xing,Peng Liu,LePing Yu,Yanyan Pan,Yanyan Pan,Jun Liu,Nengjie Huo,Xin Zhou,Wenlong Chen,Wei Gao
标识
DOI:10.1002/adom.202502189
摘要
Abstract With the systematic evolution of Advanced Driver Assistance Systems, the automatic obstacle avoidance (AOA) module has emerged as a mission‐critical component in modern vehicular systems during the post‐Moore period. To realize this functionality, infrared photodetectors with high responsivity, detectivity, and rapid response are essential. Herein, a fully depleted, self‐powered near‐infrared (NIR) 2D photodetector based on the back‐to‐back type‐III SnSe 2 /MoTe 2 /SnSe 2 (SMS) vertical dual heterojunction instead of SnSe 2 /MoTe 2 single heterojunction is demonstrated. Through Sentaurus TCAD simulation and theoretical calculation, it is proven that the middle MoTe 2 layer in the SMS dual heterojunction is completely depleted. Benefiting from the effective separation of photoinduced carriers and the nanoscale vertical transmission distance through asymmetric dual built‐in electric fields, the SMS dual heterojunction achieves a specific detectivity (D * ) of 1.1 × 10 11 Jones and a notable responsivity of 889 mA per Wunder 808 nm illumination. More importantly, the device exhibits a fast response speed, with rise and decay times of 16/27 µs. These exceptional performance characteristics substantiate the device's strong applicability for high‐speed NIR sensing circumstances, enabling the successful implementation of an AOA system. This work prevails a universal strategy for designing next‐generation NIR photodetectors based on type‐III dual heterostructure architecture.
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