光电探测器
光电子学
加密
材料科学
极性(国际关系)
可见光通信
计算机科学
传输(电信)
信号(编程语言)
异质结
光通信
光学滤波器
RGB颜色模型
可见光谱
光电效应
钥匙(锁)
异质结双极晶体管
电子工程
发光二极管
光电二极管
光学晶体管
无线
数据传输
逻辑门
光无线通信
通信系统
物理
肖特基二极管
光功率
偏压
编码器
探测理论
作者
Yuan Zhao,Man Zhao,Dayong Jiang,Haoming Wei,Haoda Li,Songqi Zhao,А. Е. Романов
标识
DOI:10.1021/acsami.5c16192
摘要
As the core of a wireless interconnection system, optical communication plays a vital role in modern communication technology. The traditional photodetector (PD) is an important component of the receiving end, its photoresponse polarity is single, which cannot selectively identify the spectrum, and the complex and cumbersome configuration of the encryption system seriously restricts its further development. In this paper, we report a ZnO/organic polymer poly(N-vinylcarbazole) (PVK)/Cu2O/FTO heterojunction PD, which successfully achieves wavelength-dependent bipolar response output under zero bias by combining the bidirectional driving force of heterojunction and Schottky junction and reasonable band structure design. In the self-made simple optical communication system, 540 and 460 nm LED lamps that match the commercial RGB emission spectrum are used as the signal source, and the positive polarity valid signal is well hidden by the negative polarity key signal, to encrypt the information. By modulating the two signal sources, the ASCII code can be simplified to half of its original size, which has extraordinary significance for improving the data transmission speed. In addition, we have implemented the execution of multifunction optoelectronic logic gates (OLGs). This study provides a new idea for the design of bipolar response PDs and their application in emerging fields, such as visible light communication.
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