Colloidal quantum dots and two-dimensional material heterostructures for photodetector applications

Electron Pub Date : 2024-04-05 DOI:10.1002/elt2.30
Jingying Luo, Gurpreet Singh Selopal, Xin Tong, Zhiming Wang
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Abstract

Photodetectors (PDs) are optoelectronic devices that convert optical signals into electrical responses. Recently, there has been a tremendous increase in research interest in PDs based on colloidal quantum dots (QDs) and two-dimensional (2D) material heterostructures owing to the strong light-absorption capacity and the well-adjustable band gap of QDs and the superior charge carriers transfer ability of 2D materials. In particular, the heterojunction formed between QDs and 2D materials can effectively enhance the separation and transport of photogenerated charge carriers, which is expected to establish PDs with ultrahigh photoconductive gain, high responsivity, and detectivity. This review aimed to summarize the state-of-the-art advances in the research of QDs/2D material nanohybrid PDs, including the device parameters, architectures, working mechanisms, and fabrication technologies. The progress of hybrid PDs based on the heterojunction of QDs with different 2D materials, along with their innovative applications, are comprehensively described. In the end, the challenges and feasible strategies in future research and development are briefly proposed.

Abstract Image

应用于光电探测器的胶体量子点和二维材料异质结构
光电探测器(PD)是一种将光信号转换为电响应的光电设备。近来,基于胶体量子点(QDs)和二维(2D)材料异质结构的光电探测器的研究兴趣大增,这是因为 QDs 具有很强的光吸收能力和良好的带隙调节性,而二维材料则具有卓越的电荷载流子传输能力。特别是,QDs 与二维材料之间形成的异质结能有效增强光生电荷载流子的分离和传输,从而有望建立具有超高光电导增益、高响应度和检测度的 PDs。本综述旨在总结 QDs/2D 材料纳米混合光导器件研究的最新进展,包括器件参数、结构、工作机制和制造技术。报告全面介绍了基于 QDs 与不同二维材料异质结的混合光导器件的研究进展及其创新应用。最后,简要提出了未来研究与开发的挑战和可行策略。
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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