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Adsorption-Induced Solvent-Based Electrostatic Gating of Charge Transport through Molecular Junctions

Author(s):

Michele Kotiuga, Pierre Darancet, Carlos R. Arroyo, Latha Venkataraman, Jeffrey B. Neaton

Journal:

Nano Letters

Year:

2015

Volume:

15

Pages

4498-4503

DOI:

10.1021/acs.nanolett.5b00990

Abstract:

Recent experiments have shown that transport properties of molecular-scale devices can be reversibly altered by the surrounding solvent. Here, we use a combination of first-principles calculations and experiment to explain this change in transport properties through a shift in the local electrostatic potential at the junction caused by nearby conducting and solvent molecules chemically bound to the electrodes. This effect is found to alter the conductance of 4,4′-bipyridine-gold junctions by more than 50%. Moreover, we develop a general electrostatic model that quantitatively relates the conductance and dipoles associated with the bound solvent and conducting molecules. Our work shows that solvent-induced effects can be used to control charge and energy transport at molecular-scale interfaces.

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