Issue 15, 2018
From the journal:

Nanoscale

Precise tuning of single molecule conductance in an electrochemical environment

L.-L. Peng,a   F. Chen,a   Z.-W. Hong,a   J.-F. Zheng,a   L. Fillaud, ORCID logo b   Y. Yuan,c   M.-L. Huang,a   Y. Shao, ORCID logo a   X.-S. Zhou, ORCID logo *a   J.-Z. Chen ORCID logo *c  and  E. Maisonhaute ORCID logo *b  

* Corresponding authors

a Key Laboratory of the Ministry of Education for Advanced Catalysis Materials, Institute of Physical Chemistry, Zhejiang Normal University, Jinhua, Zhejiang 321004, China
E-mail: xszhou@zjnu.edu.cn

b Sorbonne Université, CNRS, Laboratoire Interfaces et Systèmes Electrochimiques, LISE, Paris, France
E-mail: emmanuel.maisonhaute@upmc.fr

c Department of Physics, Shanghai University, Shanghai 200444, China
E-mail: jingzhe@shu.edu.cn

Abstract

Tuning of molecular conductance in a liquid environment is a hot topic in molecular electronics. In this article, we explore a new concept where the Fermi level positions of the metallic ends are varied simply by modifying the electroactive salt concentration in solution. We rely on the electrochemical scanning tunneling microscope break junction method that allows the construction in solution of copper atomic contacts that can be then bridged by single molecules. The experimental conductance evolution is first confronted with an analytical formulation that allows the deduction of the molecule's LUMO position and electronic coupling factors. These parameters are in close agreement with those obtained by independent DFT calculations.

Graphical abstract: Precise tuning of single molecule conductance in an electrochemical environment

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Article information

DOI
https://doi.org/10.1039/C8NR00625C
Article type
Paper
Submitted
23 Jan 2018
Accepted
08 Mar 2018
First published
12 Mar 2018

Nanoscale, 2018,10, 7026-7032

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Precise tuning of single molecule conductance in an electrochemical environment

L.-L. Peng, F. Chen, Z.-W. Hong, J.-F. Zheng, L. Fillaud, Y. Yuan, M.-L. Huang, Y. Shao, X.-S. Zhou, J.-Z. Chen and E. Maisonhaute, Nanoscale, 2018, 10, 7026 DOI: 10.1039/C8NR00625C

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