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分子结中电化学门控电导的第一性原理研究。

First-principles study of electrochemical gate-controlled conductance in molecular junctions.

作者信息

Su Wenyong, Jiang Jun, Lu Wei, Luo Yi

机构信息

Department of Theoretical Chemistry, Royal Institute of Technology, AlbaNova, S-106 91 Stockholm, Sweden.

出版信息

Nano Lett. 2006 Sep;6(9):2091-4. doi: 10.1021/nl061376z.

Abstract

A first-principles computational method is developed to study the electrochemical gate-controlled conductance in molecular junctions. It has been applied to a single molecular field-effect transistor made by a perylene tetracaboxylic diimide molecule connected to gold electrodes and has successfully reproduced the experimentally observed huge gate voltage effect on the current. It is found that such a significant gain is a result of the large polarization of the molecule induced by the huge local electrical field generated by the electrochemical gate. The resonant electron tunneling through unoccupied molecular orbitals is shown to be the dominant transport process.

摘要

一种基于第一性原理的计算方法被开发出来用于研究分子结中的电化学栅极控制电导。该方法已应用于由与金电极相连的苝四羧酸二亚胺分子制成的单分子场效应晶体管,并成功再现了实验观察到的栅极电压对电流的巨大影响。研究发现,如此显著的增益是由电化学栅极产生的巨大局部电场引起的分子大极化的结果。通过未占据分子轨道的共振电子隧穿被证明是主要的输运过程。

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