H. F. Busnengo scite author profile

Methods for accurately computing the interaction of molecules with metal surfaces are critical to understanding and thereby improving heterogeneous catalysis. We introduce an implementation of the specific reaction parameter (SRP) approach to density functional theory (DFT) that carries the method forward from a semiquantitative to a quantitative description of the molecule-surface interaction. Dynamics calculations on reactive scattering of hydrogen from the copper (111) surface using an SRP-DFT potential energy surface reproduce data on the dissociative adsorption probability as a function of incidence energy and reactant state and data on rotationally inelastic scattering with chemical accuracy (within approximately 4.2 kilojoules per mole).

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Dry Reforming of Methane on a Highly‐Active Ni‐CeO₂ Catalyst: Effects of Metal‐Support Interactions on C−H Bond Breaking

Liu

et al. 2016

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Ni-CeO2 is a highly efficient, stable and non-expensive catalyst for methane dry reforming at relative low temperatures (700 K). The active phase of the catalyst consists of small nanoparticles of nickel dispersed on partially reduced ceria. Experiments of ambient pressure XPS indicate that methane dissociates on Ni/CeO2 at temperatures as low as 300 K, generating CHx and COx species on the surface of the catalyst. Strong metal-support interactions activate Ni for the dissociation of methane. The results of density-functional calculations show a drop in the effective barrier for methane activation from 0.9 eV on Ni(111) to only 0.15 eV on Ni/CeO2-x (111). At 700 K, under methane dry reforming conditions, no signals for adsorbed CHx or C species are detected in the C 1s XPS region. The reforming of methane proceeds in a clean and efficient way.

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H. F. Busnengo

Chemically Accurate Simulation of a Prototypical Surface Reaction: H ₂ Dissociation on Cu(111)

Dry Reforming of Methane on a Highly‐Active Ni‐CeO₂ Catalyst: Effects of Metal‐Support Interactions on C−H Bond Breaking

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H. F. Busnengo

Chemically Accurate Simulation of a Prototypical Surface Reaction: H 2 Dissociation on Cu(111)

Dry Reforming of Methane on a Highly‐Active Ni‐CeO2 Catalyst: Effects of Metal‐Support Interactions on C−H Bond Breaking

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Chemically Accurate Simulation of a Prototypical Surface Reaction: H ₂ Dissociation on Cu(111)

Dry Reforming of Methane on a Highly‐Active Ni‐CeO₂ Catalyst: Effects of Metal‐Support Interactions on C−H Bond Breaking