二维量子点(2D QDs)研究综述:从合成到在能源和光电子领域的应用

IF 7.4 1区 物理与天体物理 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Arumugam Manikandan , Yu-Ze Chen , Chih-Chiang Shen , Chin-Wei Sher , Hao-Chung Kuo , Yu-Lun Chueh
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引用次数: 65

摘要

由于量子点具有有趣的光学、电学、催化和电化学特性,其发展的最新进展为传感器、生物成像、电池、电化学水分解和光电子应用的探索提供了新的可能性。在量子点中,由石墨烯片、过渡金属二硫化物(TMD)层和磷烯衍生的原子薄二维量子点(2D QDs)在过去几年中引起了相当大的兴趣。目前对碳量子点的研究已经非常深入,但TMD量子点和基于二维量子点的异质结构正在迅速发展。本文综述了二维量子点的合成和性质,特别是碳量子点和TMD量子点在电化学水分解、光催化废水处理、超级电容器、电池和光电探测器等方面的最新应用进展。此外,还强调了这种二维量子点的组装以实现工业规模生产并提高其在广泛应用中的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A critical review on two-dimensional quantum dots (2D QDs): From synthesis toward applications in energy and optoelectronics

Recent advances in the development of quantum dots (QDs) have offered new possibilities for the exploration of sensors, bio imaging, batteries, electrochemical water splitting and optoelectronic applications because of their intriguing optical, electrical, catalytic and electrochemical properties. Among QDs, atomically thin two-dimensional quantum dots (2D QDs) derived from graphene sheets, transition metal dichalcogenide (TMD) layers and phosphorene have been of considerable interest for the past few years. There have been several intensive studies of carbon QDs, but TMD QDs and heterostructures based on 2D QDs are rapidly advancing. Herein, the synthesis and properties of 2D QDs, particularly carbon and TMD QDs, are reviewed for the recent progress in their application toward electrochemical water splitting, photocatalytic wastewater treatment, supercapacitors, batteries and photodetectors. Moreover, the assembly of such 2D QDs to achieve industrial-scale production and boost their performance in widespread applications is emphasized.

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来源期刊
Progress in Quantum Electronics
Progress in Quantum Electronics 工程技术-工程:电子与电气
CiteScore
18.50
自引率
0.00%
发文量
23
审稿时长
150 days
期刊介绍: Progress in Quantum Electronics, established in 1969, is an esteemed international review journal dedicated to sharing cutting-edge topics in quantum electronics and its applications. The journal disseminates papers covering theoretical and experimental aspects of contemporary research, including advances in physics, technology, and engineering relevant to quantum electronics. It also encourages interdisciplinary research, welcoming papers that contribute new knowledge in areas such as bio and nano-related work.
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