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Pd3Ag(111) as a Model System for Hydrogen Separation Membranes: Combined Effects of CO Adsorption and Surface Termination on the Activation of Molecular Hydrogen

Ingeborg-Helene Svenum, Jeffrey A. Herron, Manos Mavrikakis, Hilde J. Venvik

2020Topics in Catalysis19 citationsDOIOpen Access PDF

Abstract

Abstract The co-adsorption of hydrogen and carbon monoxide on Pd 3 Ag(111) alloy surfaces has been studied as a model system for Pd-Ag alloys in membrane and catalysis applications using periodic density functional theory calculations (PW91-GGA). We explored the effects of Pd–Ag surface composition, since segregation of silver towards and away from the surface has been suggested to explain the experimentally observed changes in H 2 activation, CO inhibition and reactivity. We found that CO pre-adsorbed on the surface weakens the adsorption of H on Pd 3 Ag(111) alloy surfaces irrespective of whether the surface termination corresponds to the bulk Pd 3 Ag composition, or is purely Pd-terminated. A higher coverage of H with CO present is obtained for the Pd-terminated surface; this surface also exhibits a larger range of chemical potentials for co-adsorbed hydrogen and CO. The barrier for H 2 activation increases with increasing CO coverage, but the surface composition has the largest impact on H 2 activation at intermediate CO coverage. The results imply that Pd-based membranes with typically ~ 23 wt% Ag are less prone to CO poisoning if the surface becomes Pd-terminated.

Topics & Concepts

Carbon monoxideAdsorptionCatalysisHydrogenDensity functional theoryMembraneChemistryReactivity (psychology)AlloyMaterials sciencePhysical chemistryChemical engineeringComputational chemistryOrganic chemistryBiochemistryAlternative medicineMedicinePathologyEngineeringCatalytic Processes in Materials ScienceCatalysts for Methane ReformingAdvanced Chemical Physics Studies
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