Abstract

The technological application of nanoscale functional elements made of individual molecules is a promising approach towards the miniaturization of electronic devices. In particular, there is a potential for exploiting quantum interference effects in controlling the charge transport in these molecular-scale devices. The work is aimed at developing a particular example of a single-molecule transistor and explaining how the intrinsic chemical structure of a molecular complex used, the features of its electronic properties, and the geometry of its connection with metal electrodes may affect the efficiency of electronic conduction along a molecular wire.

中文翻译：

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量子干涉对分子电子结中电荷传输的影响

摘要

由单个分子制成的纳米级功能元件的技术应用是实现电子设备小型化的一种有前途的方法。特别是，有可能利用量子干涉效应来控制这些分子级器件中的电荷传输。这项工作的目的是开发一个单分子晶体管的特定例子，并解释所使用的分子复合物的固有化学结构、其电子特性的特征以及其与金属电极连接的几何形状如何影响电子效率沿分子线传导。