基于空气稳定 Bi2Te3 纳米片的自供电宽带 RGB 成像光电探测器

IF 8.2 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Today Nano Pub Date : 2024-02-03 DOI:10.1016/j.mtnano.2024.100455
Chenchen Zhao , Dongbo Wang , Wen He , Bingke Zhang , Jingwen Pan , Zhi Zeng , Xiangyu Zhang , Donghao Liu , Sihang Liu , Gang Liu , Xuan Fang , Dan Fang , Liancheng Zhao , Jinzhong Wang
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引用次数: 0

摘要

室温自供电宽带(RTSPBD)响应光电探测器已受到广泛关注,它对缓解当今的能源和环境危机也大有裨益。本文成功合成了碲化铋(Bi2Te3)纳米片,并将其组装成 RTSPBD 光电探测器。Bi2Te3 光电探测器表现出卓越的响应特性:宽光谱范围、最大响应率(10.254 mA/W,435 nm)、光电流密度(106 μA/cm2)、离子/离子关闭(71,365 nm,25 mW/cm2)、上升/衰减时间(τrise = 0.0475 s 和 τdecay = 0.0468 s)和循环稳定性。从紫外到红外(UV-IR)区域都能观察到卓越的响应性,这归因于 Bi2Te3 的窄带隙拓扑绝缘态为光生伏打效应产生的电子提供了快速电荷传输通道。此外,研究还发现这些器件在红-绿-蓝(RGB)三原色成像中具有潜在的应用价值。预计这项工作将为未来设计和制备高性能 RTSPBD 光电探测成像器件提供一种极具前景的候选材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Self-powered broadband RGB imaging photodetector based on air-stabilized Bi2Te3 nanosheets

Room temperature self-powered broadband (RTSPBD) response photodetectors have received considerable attention and are also very helpful in alleviating today's energy and environmental crisis. Herein, bismuth telluride (Bi2Te3) nanosheets were successfully synthesized and assembled into an RTSPBD photodetector. The Bi2Te3 photodetector exhibits excellent response characteristics: wide spectral range, maximum responsivity (10.254 mA/W, 435 nm), photocurrent density (106 μA/cm2), Ion/Ioff (71, 365 nm, 25 mW/cm2), rise/decay time (τrise = 0.0475 s and τdecay = 0.0468 s) and cycling stability. A superior responsivity from the ultraviolet to infrared (UV-IR) region is observed, which is attributed to the fact that the narrow bandgap topological insulating state of Bi2Te3 provides a fast charge transport channel for electrons generated by the photovoltaic effect. In addition, it was found that these devices have potential applications in red-green-blue (RGB) triple primary color imaging. It is anticipated that this work will provide a great promising candidate material for the design and preparation of high-performance RTSPBD photodetection imaging devices in the future.

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来源期刊
CiteScore
11.30
自引率
3.90%
发文量
130
审稿时长
31 days
期刊介绍: Materials Today Nano is a multidisciplinary journal dedicated to nanoscience and nanotechnology. The journal aims to showcase the latest advances in nanoscience and provide a platform for discussing new concepts and applications. With rigorous peer review, rapid decisions, and high visibility, Materials Today Nano offers authors the opportunity to publish comprehensive articles, short communications, and reviews on a wide range of topics in nanoscience. The editors welcome comprehensive articles, short communications and reviews on topics including but not limited to: Nanoscale synthesis and assembly Nanoscale characterization Nanoscale fabrication Nanoelectronics and molecular electronics Nanomedicine Nanomechanics Nanosensors Nanophotonics Nanocomposites
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