Tuning the properties of metal surfaces by alloying: a DFT study of H2, O2, and H2O adsorption on Ni-Fe surfaces

Abstract

The adsorption and dissociation of H2, O2, and H2O on Ni-Fe alloys with variable Fe:Ni ratio are studied by means of Density Functional Theory calculations. The alloy composition deeply influences the thermochemistry of the adsorption and dissociation processes, with relevant implications to catalysis and electrocatalysis. For large concentration of Fe, the adsorption of H2 is facilitated. On the contrary, O2 is bound more strongly on Ni(111). The dissociation of all three molecules is favourable on all considered supports. However, the O2 and H2O dissociation is more favourable on NiFe alloys compared to Ni, while the dissociation of H2 has a similar thermodynamic profile on pure Ni and Ni2Fe alloy, and is less favourable on NiFe.

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