A polar-switchable and controllable negative phototransistor for information encryption

加密 材料科学 铁电性 异质结 光电子学 极化(电化学) 光探测 晶体管 纳米技术 电压 光电探测器 计算机科学 电气工程 计算机网络 化学 工程类 物理化学 电介质
作者
Aiping Cao,Shubing Li,Hongli Chen,Menghan Deng,Xionghu Xu,Liyan Shang,Yawei Li,Anyang Cui,Zhigao Hu
出处
期刊:Materials horizons [Royal Society of Chemistry]
卷期号:10 (11): 5099-5109 被引量:28
标识
DOI:10.1039/d3mh01120h
摘要

Anomalous negative phototransistors have emerged as a distinct research area, characterized by a decrease in channel current under light illumination. Recently, their potential applications have been expanded beyond photodetection. Despite the considerable attention given to negative phototransistors, negative photoconductance (NPC) in particular remains relatively unexplored, with limited research advancements as compared to well-established positive phototransistors. In this study, we designed ferroelectric field-effect transistors (FeFETs) based on the WSe2/CIPS van der Waals (vdW) vertical heterostructures with a buried-gated architecture. The transistor exhibits NPC and positive photoconductance (PPC), demonstrating the significant role of ferroelectric polarization in the distinctive photoresponse. The observed inverse photoconductance can be attributed to the dynamic switching of ferroelectric polarization and interfacial charge transfer processes, which have been investigated experimentally and theoretically using Density Functional Theory (DFT). The unique phenomena enable the coexistence of controllable and polarity-switchable PPC and NPC. The novel feature holds tremendous potential for applications in optical encryption, where the specific gate voltages and light can serve as universal keys to achieve modulation of conductivity. The ability to manipulate conductivity in response to optical stimuli opens up new avenues for developing secure communication systems and data storage technologies. Harnessing this feature enables the design of advanced encryption schemes that rely on the unique properties of our material system. The study not only advances the development of NPC but also paves the way for more robust and efficient methods of optical encryption, ensuring the confidentiality and integrity of critical information in various domains, including data transmission, and information security.
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