Optical and charge transport characteristics of photoswitching plasmonic molecular systems

IF 7.4 1区 物理与天体物理 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Song Han , Xiu Liang , Ilya Razdolski , Yu Bai , Haixing Li , Dangyuan Lei
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引用次数: 0

Abstract

Probing the optical and charge transport characteristics in molecular junctions not only provides fundamental understanding of light–matter interactions and quantum transport at the atomic and molecular scale, but also holds great promise for the development of molecular-scale optical and electronic devices. Herein, an overview of recent progress in fabricating and characterizing photoswitching molecular systems using both the current measured from single molecule circuits as well as the light signals monitored in photodetectors is presented. We review four groups of azobenzene, diarylethene, dihydroazulene, spiropyran photoswitching molecules that have been used to construct photoswitching molecular devices by scanning tunneling microscope-based or mechanically controlled break-junction techniques, focusing on the impact of light-induced reactions on the charge transport processes at the single molecule level. We also discuss key optical properties of photoswitching systems, uncovered by a range of optical methods including transient absorption and ultrafast spectroscopies, that are critically related to structural symmetry or nonlinear optical effects.

光开关质子分子系统的光学和电荷传输特性
探究分子结中的光学和电荷传输特性不仅可以从根本上了解原子和分子尺度上的光物质相互作用和量子传输,还为开发分子尺度的光学和电子器件带来了巨大希望。本文概述了利用单分子电路测得的电流和光电探测器监测到的光信号制造和表征光开关分子系统的最新进展。我们回顾了四组偶氮苯、二芳烯、二氢氮杂环戊烯和螺吡喃光开关分子,这些分子已被用于通过基于扫描隧道显微镜或机械控制的断点连接技术构建光开关分子器件,重点关注光诱导反应对单分子水平电荷传输过程的影响。我们还讨论了一系列光学方法(包括瞬态吸收和超快光谱)揭示的光开关系统的关键光学特性,这些特性与结构对称性或非线性光学效应密切相关。
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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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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