基于WSe/h-BN/石墨烯异质结的二维可编程光电探测器

2D Programmable Photodetectors Based on WSe/h-BN/Graphene Heterojunctions.

作者信息

Wang Zhihao, Jian Jialing, Weng Zhengjin, Wu Qianqian, Li Jian, Zhou Xingyu, Kong Wei, Xu Xiang, Lin Liangliang, Gu Xiaofeng, Xiao Peng, Nan Haiyan, Xiao Shaoqing

机构信息

Engineering Research Center of IoT Technology Applications (Ministry of Education) School of Integrated Circuits, Jiangnan University, Wuxi, 214122, China.

School of Engineering Westlake University, Hangzhou, 310030, China.

出版信息

Adv Sci (Weinh). 2025 Jun;12(22):e2417300. doi: 10.1002/advs.202417300. Epub 2025 Apr 4.

DOI:10.1002/advs.202417300

PMID:40186358

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12165107/

Abstract

Programmable photovoltaic photodetectors based on 2D materials can modulate optical and electronic signals in parallel, making them particularly well-suited for optoelectronic hybrid dual-channel communication. This work presents a programmable non-volatile bipolar semi-floating gate photovoltaic photodetector (SFG-PD) constructed using tungsten diselenide (WSe), hexagonal boron nitride (h-BN), and graphene (Gra). By controlling the voltage pulses applied to the control gate, the device generates opposing built-in electric field junctions (p-p and n-p junctions), enabling reversible switching between positive and negative light responses with a rapid response time of up to 2.02 µs. Moreover, the application of this device is demonstrated in dual-channel optoelectronic hybrid communication, offering a practical solution for achieving high-speed, large-capacity, low-loss, and secure multi-channel communication.

摘要

基于二维材料的可编程光伏探测器可以并行调制光信号和电信号，使其特别适用于光电混合双通道通信。本文介绍了一种使用二硒化钨（WSe）、六方氮化硼（h-BN）和石墨烯（Gra）构建的可编程非易失性双极半浮栅光伏探测器（SFG-PD）。通过控制施加到控制栅极的电压脉冲，该器件产生相反的内建电场结（p-p和n-p结），能够在正、负光响应之间进行可逆切换，响应时间快至2.02微秒。此外，该器件在双通道光电混合通信中的应用得到了验证，为实现高速、大容量、低损耗和安全的多通道通信提供了一种切实可行的解决方案。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee26/12165107/b7f1b58b544d/ADVS-12-2417300-g001.jpg

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基于WSe/h-BN/石墨烯异质结的二维可编程光电探测器

2D Programmable Photodetectors Based on WSe/h-BN/Graphene Heterojunctions.

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