Issue 17, 2015
From the journal:

Nanoscale

Electronic transport in benzodifuran single-molecule transistors

An Xiang,ab   Hui Li,c   Songjie Chen,c   Shi-Xia Liu,*c   Silvio Decurtins,c   Meilin Bai,a   Shimin Hou*a  and  Jianhui Liao*a  

* Corresponding authors

a Key Laboratory for the Physics and Chemistry of Nanodevices, Department of Electronics, Peking University, Beijing 100871, China
E-mail: smhou@pku.edu.cn, Jianhui.Liao@pku.edu.cn

b Academy for Advanced Interdisciplinary Studies, Peking University, Beijing 100871, China

c Departement für Chemie und Biochemie, Universität Bern, Freiestrasse 3, 3012 Bern, Switzerland
E-mail: liu@dcb.unibe.ch

Abstract

Benzodifuran (BDF) single-molecule transistors have been fabricated in electromigration break junctions for electronic measurements. The inelastic electron tunneling spectrum validates that the BDF molecule is the pathway of charge transport. The gating effect is analyzed in the framework of a single-level tunneling model combined with transition voltage spectroscopy (TVS). The analysis reveals that the highest occupied molecular orbital (HOMO) of the thiol-terminated BDF molecule dominates the charge transport through Au–BDF–Au junctions. Moreover, the energy shift of the HOMO caused by the gate voltage is the main reason for conductance modulation. In contrast, the electronic coupling between the BDF molecule and the gold electrodes, which significantly affects the low-bias junction conductance, is only influenced slightly by the applied gate voltage. These findings will help in the design of future molecular electronic devices.

Graphical abstract: Electronic transport in benzodifuran single-molecule transistors

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Article information

DOI
https://doi.org/10.1039/C5NR00402K
Article type
Paper
Submitted
19 Jan 2015
Accepted
22 Mar 2015
First published
24 Mar 2015

Nanoscale, 2015,7, 7665-7673

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Electronic transport in benzodifuran single-molecule transistors

A. Xiang, H. Li, S. Chen, S. Liu, S. Decurtins, M. Bai, S. Hou and J. Liao, Nanoscale, 2015, 7, 7665 DOI: 10.1039/C5NR00402K

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