光探测
光电子学
材料科学
响应度
光电探测器
异质结
计算机科学
多模光纤
极化(电化学)
肖特基二极管
发光二极管
二极管
桥接(联网)
逻辑门
整改
光伏系统
光子学
光伏
物理
制作
砷化铟
光通信
光学
和大门
光学计算
加密
电子工程
晶体管
比探测率
激光阈值
作者
Qixiao Zhao,Mengjia Xia,Xinyu Ma,Yueyue Fang,C. G. Zhuang,Bingkun Ye,Luyao Guo,Mengyang Kang,Yihong She,Xiaoyong Jiang,Tangxin Li,Fu Xiao,Г. Н. Панин,Nengjie Huo,Hongyu Chen,Jinshui Miao,Weida Hu
出处
期刊:Small methods
[Wiley]
日期:2025-11-28
卷期号:9 (12): e01791-e01791
标识
DOI:10.1002/smtd.202501791
摘要
Abstract The integration of multidimensional optical sensing and computing within a single device is critical for next‐generation optoelectronics but remains challenging due to material limitations and complex architectures. 2D van der Waals heterostructures(vdWHs) offer a promising platform for such multifunctionality. Here, a gate‐tunable Te‐WSe 2 heterojunction device is demonstrated that simultaneously achieves high‐performance polarization‐sensitive photodetection and reconfigurable multimode optoelectronic logic operations. By exploiting the strong in‐plane anisotropy of Te and the gate‐tunable band alignment at the heterointerface, the device exhibits a widely adjustable rectification ratio exceeding 10 5 , a high responsivity of 667.9 mA W −1 , and a gate‐tunable polarization anisotropy ratio(AR) from 1.27 to 17.8. Operating in a photovoltaic mode, the device achieves a specific detectivity over 10 11 Jones and a fast response time of ≈25 µs. Furthermore, secure optical communication and multimode logic gates are demonstrated, where optical and electrical inputs are programmatically processed to execute encryption and Boolean operations. This work overcomes key limitations in polarization photodetection and provides a pathway toward compact, intelligent optoelectronic systems for advanced information processing.
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