Density functional theory studies of methyl dissociation on a Ni(111) surface in the presence of an external electric field

Fanglin Che, Renqin Zhang, Alyssa J. Hensley, Su Ha, Jean Sabin Mcewen

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34 Scopus citations

Abstract

To provide a basis for understanding the reactive processes on nickel surfaces at fuel cell anodes, we investigate the influence of an external electric field on the dehydrogenation of methyl species on a Ni(111) surface using density functional theory calculations. The structures, adsorption energies and reaction barriers for all methyl species dissociation on the Ni(111) surface are identified. Our results show that the presence of an external electric field does not affect the structures and favorable adsorption sites of the adsorbed species, but causes the adsorption energies of the CH x species at the stable site to fluctuate around 0.2 eV. Calculations give an energy barrier of 0.692 eV for CH3* → CH 2* + H*, 0.323 eV for CH2* → CH* + H* and 1.373 eV for CH* → C* + H*. Finally, we conclude that the presence of a large positive electric field significantly increases the energy barrier of the CH* → C* + H* reaction more than the other two reactions, suggesting that the presence of pure C atoms on Ni(111) are impeded in the presence of an external positive electric field.

Original languageEnglish
Pages (from-to)2399-2410
Number of pages12
JournalPhysical Chemistry Chemical Physics
Volume16
Issue number6
DOIs
StatePublished - 14 Feb 2014

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