Author
Listed:
- Qiang Sun
(Northeastern University)
- Nicholas J. Oliveira
(University of Delaware)
- Soonho Kwon
(California Institute of Technology)
- Sergiy Tyukhtenko
(Northeastern University)
- Jason J. Guo
(Northeastern University
Northeastern University)
- Nathalie Myrthil
(Northeastern University)
- Steven A. Lopez
(Northeastern University)
- Ian Kendrick
(Northeastern University)
- Sanjeev Mukerjee
(Northeastern University)
- Lu Ma
(Brookhaven National Laboratory)
- Steven N. Ehrlich
(Brookhaven National Laboratory)
- Jingkun Li
(East China University of Science and Technology)
- William A. Goddard
(California Institute of Technology)
- Yushan Yan
(University of Delaware)
- Qingying Jia
(Northeastern University
Plug Power Inc)
Abstract
Rational construction of the electrode–solution interface where electrochemical processes occur is of paramount importance in electrochemistry. Efforts to gain better control and understanding of the interface have been hindered by lack of probing methods. Here we show that the hydrogen evolution and oxidation reactions (HER/HOR) catalysed by platinum in base can be promoted by introduction of N-methylimidazoles at the platinum–water interface. In situ spectroscopic characterization together with simulations indicate that the N-methylimidazoles facilitate diffusion of hydroxides across the interface by holding the second layer of water close to platinum surfaces, thereby promoting the HER/HOR. We thus propose that the HER/HOR kinetics of platinum in acid and base is governed by diffusion of protons and hydroxides, respectively, through the hydrogen-bond network of interfacial water by the Grotthuss mechanism. Moreover, we demonstrate a 40% performance improvement of an anion exchange membrane electrolyser by adding 1,2-dimethylimidazole into the alkali fed into its platinum cathode.
Suggested Citation
Qiang Sun & Nicholas J. Oliveira & Soonho Kwon & Sergiy Tyukhtenko & Jason J. Guo & Nathalie Myrthil & Steven A. Lopez & Ian Kendrick & Sanjeev Mukerjee & Lu Ma & Steven N. Ehrlich & Jingkun Li & Will, 2023.
"Understanding hydrogen electrocatalysis by probing the hydrogen-bond network of water at the electrified Pt–solution interface,"
Nature Energy, Nature, vol. 8(8), pages 859-869, August.
Handle:
RePEc:nat:natene:v:8:y:2023:i:8:d:10.1038_s41560-023-01302-y
DOI: 10.1038/s41560-023-01302-y
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