Electrical Matching at Metal/Molecule Contacts for Efficient Heterogeneous Charge Transfer
Author(s):
Shino Sato, Shigeru Iwase, Kotaro Namba, Tomoya Ono, Kenji Hara, Atsushi Fukuoka, Kohei Uosaki, Katsuyoshi Ikeda
Journal:
ACS Nano
Year:
2018
Volume:
12
Pages
1228–1235
DOI:
10.1021/acsnano.7b07223
Abstract:
In a metal/molecule hybrid system, unavoidable electrical mismatch exists between metal continuum states and frontier molecular orbitals. This causes energy loss in the electron conduction across the metal/molecule interface. For efficient use of energy in a metal/molecule hybrid system, it is necessary to control interfacial electronic structures. Here we demonstrate that electrical matching between a gold substrate and π-conjugated molecular wires can be obtained by using monatomic foreign metal interlayers, which can change the degree of d-π* back-donation at metal/anchor contacts. This interfacial control leads to energy level alignment
between the Fermi level of the metal electrode and conduction molecular orbitals, resulting in resonant electron conduction in the metal/molecule hybrid system. When this method is applied to molecule-modified electrocatalysts, the heterogeneous electrochemical reaction rate is considerably improved with significant suppression of energy loss at the internal electron conduction.