Scaling Properties of Adsorption Energies for Hydrogen-Containing Molecules on Transition-Metal Surfaces
Frank Abild‐Pedersen(Technical University of Denmark), Jeff Greeley(Technical University of Denmark), Felix Studt(Technical University of Denmark), Jan Rossmeisl(Technical University of Denmark), Ture R. Munter(Technical University of Denmark), Poul Georg Moses(Technical University of Denmark), Egill Skúlason(Technical University of Denmark), Thomas Bligaard(Technical University of Denmark), Jens K. Nørskov(Technical University of Denmark)
Cited by 1,674Open Access
Abstract
Density functional theory calculations are presented for CHx, x=0,1,2,3, NHx, x=0,1,2, OHx, x=0,1, and SHx, x=0,1 adsorption on a range of close-packed and stepped transition-metal surfaces. We find that the adsorption energy of any of the molecules considered scales approximately with the adsorption energy of the central, C, N, O, or S atom, the scaling constant depending only on x. A model is proposed to understand this behavior. The scaling model is developed into a general framework for estimating the reaction energies for hydrogenation and dehydrogenation reactions.
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