1. Efficient electron transfer across hydrogen bond interfaces by proton-coupled and -uncoupled pathways
- Author
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Miao Meng, Nathan J. Patmore, Suman Mallick, Shan Feng Zou, Chun Y. Liu, Hong Li Zhang, Tao Cheng, Huo Wen Chen, Lijiu Cao, Dong Xue Shen, Yi Yang Wu, and Yi Qin
- Subjects
0301 basic medicine ,Materials science ,Hydrogen ,Science ,General Physics and Astronomy ,chemistry.chemical_element ,Electron donor ,02 engineering and technology ,Article ,General Biochemistry, Genetics and Molecular Biology ,03 medical and health sciences ,chemistry.chemical_compound ,Electron transfer ,Molecule ,lcsh:Science ,Multidisciplinary ,Hydrogen bond ,General Chemistry ,021001 nanoscience & nanotechnology ,Electron transport chain ,Acceptor ,030104 developmental biology ,chemistry ,Chemical physics ,Covalent bond ,lcsh:Q ,0210 nano-technology - Abstract
Thermal electron transfer through hydrogen bonds remains largely unexplored. Here we report the study of electron transfer through amide-amide hydrogen bonded interfaces in mixed-valence complexes with covalently bonded Mo2 units as the electron donor and acceptor. The rate constants for electron transfer through the dual hydrogen bonds across a distance of 12.5 Å are on the order of ∼ 1010 s−1, as determined by optical analysis based on Marcus–Hush theory and simulation of ν(NH) vibrational band broadening, with the electron transfer efficiencies comparable to that of π conjugated bridges. This work demonstrates that electron transfer across a hydrogen bond may proceed via the known proton-coupled pathway, as well as an overlooked proton-uncoupled pathway that does not involve proton transfer. A mechanistic switch between the two pathways can be achieved by manipulation of the strengths of electronic coupling and hydrogen bonding. The knowledge of the non-proton coupled pathway has shed light on charge and energy transport in biological systems., Thermal electron transfer across hydrogen bond remains largely unexplored. Here the authors demonstrate that electron self-exchange through hydrogen bonds is highly efficient and can proceed either via the known proton-coupled pathway or an overlooked proton-uncoupled pathway
- Published
- 2019