Collection of unconventional transport phenomena: natural obstacle or vibrant guiding principle for the design of molecular junctions?

AAPPS Bulletin Pub Date : 2024-01-02 DOI:10.1007/s43673-023-00110-6
Jinlong Ren, Tianchen Li, Zhuang Li, Decheng Kong, Guangcun Shan, KunPeng Dou
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引用次数: 0

Abstract

The real atomic scale details of molecular junctions would be of much complexity and can yield a plethora of “counterintuitive” results. Here, we provide an overview of four unconventional intentional or unintentional transport phenomena in molecular junctions, in particular, unconventional tunneling length-dependent transport behavior, deviation from Kirchhoff’s superposition law, dual roles of imperfect engineering, and masked quantum interference. These abnormal phenomena are not engaged in a dead end. On the contrary, it offers plenty of research opportunities in molecular electronics.

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收集非常规传输现象:设计分子连接的自然障碍还是充满活力的指导原则?
分子结的实际原子尺度细节非常复杂,可能产生大量 "反直觉 "结果。在此,我们概述了分子结中四种非常规的有意或无意输运现象,特别是非常规的隧穿长度依赖输运行为、基尔霍夫叠加定律的偏离、不完美工程的双重作用以及掩蔽量子干涉。这些反常现象并没有陷入死胡同。相反,它为分子电子学提供了大量研究机会。
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AAPPS Bulletin
AAPPS Bulletin
CiteScore
8.20
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