Bi2O3 Layer‐Integrated, Double‐Sided Responsive, Waveband‐Discriminated Perovskite Photodetector for Encrypted Optical Communication

光电探测器 加密 材料科学 光电子学 光通信 计算机科学 无线 电信 计算机网络
作者
Shuo Liu,Shujie Jiao,Yue Zhao,Hongliang Lu,Song Yang,Dongbo Wang,Shiyong Gao,Jinzhong Wang,Liancheng Zhao
出处
期刊:Advanced Optical Materials [Wiley]
卷期号:11 (21) 被引量:26
标识
DOI:10.1002/adom.202300831
摘要

Abstract Encrypted optical communication is a critical technology in numerous fields, including remote sensing, environmental monitoring, and homeland defense. As a core of wireless interconnect systems, the conventional photodetectors generally receive optical signals from a single direction and fail to distinguish between various wavebands, severely undermining the potential for data transfer and protection. Herein, a Bi 2 O 3 layer‐integrated waveband‐discriminated perovskite photodetector is presented. By rational design of energy band and device architecture, the novel photodetector is self‐powered, double‐sided responsive, and recognizable to the short or long‐wave UV, as well as visible optical signals. Without external bias, the device exhibits a high performance with peak responsivities of 42.1 and 72.3 mA W −1 in frontal and reverse incidence, respectively. Benefiting from these advantages, the photodetector is applicable to optical communication and encryption. In reverse incidence, reversible message delivery is achieved through the conversion and decoding of illumination patterns and binary digits. For a further step, the encrypted processing is fulfilled in frontal incidence. By virtue of the eight irradiation combinations, a secret key containing ten‐bit commands will generate over a billion encryption methods. This work realizes a new mode of communication and encryption that entirely relies on optical signals, offering new insights into wireless communication.
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