Issue 21, 2019

Theoretical insight into the origin of the electrochemical promotion of ethylene oxidation on ruthenium oxide

Abstract

In electrochemical promotion of catalysis (EPOC), the adsorption energies of the reactants and products, and subsequently the overall catalytic reaction rate, are modified by applying an electrochemical potential to the catalyst. In this paper, the oxidation of ethylene on ruthenium oxide was studied through carrying out experiments and theoretical modeling in order to elucidate the atomistic origin of EPOC. The experimental results show an increase in the reaction rate under negative and positive polarization. The density functional theory (DFT)-based surface free energies demonstrate that there is an increase in oxygen coverage on the ruthenium surface as a function of the potential, conforming with the backspillover model of EPOC. Furthermore, the DFT results demonstrate that the positive polarization and the associated electric field, which increase the work function, result in enhanced adsorption and facilitate cleavage of the C–C bond of ethylene. Under negative polarization, on the other hand, it is the oxygen activation that is facilitated. Together, these two pieces of the puzzle explain the experimentally observed increase in the ethylene oxidation rate as a function of positive and negative potential, proving the effect of an electric field on the adsorption rate and activation energy of ethylene oxidation.

Graphical abstract: Theoretical insight into the origin of the electrochemical promotion of ethylene oxidation on ruthenium oxide

Supplementary files

Article information

Article type
Paper
Submitted
14 ذو القعدة 1440
Accepted
19 محرم 1441
First published
19 محرم 1441

Catal. Sci. Technol., 2019,9, 5915-5926

Theoretical insight into the origin of the electrochemical promotion of ethylene oxidation on ruthenium oxide

Y. M. Hajar, L. Treps, C. Michel, E. A. Baranova and S. N. Steinmann, Catal. Sci. Technol., 2019, 9, 5915 DOI: 10.1039/C9CY01421G

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