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Literature DB >> 19892978

Chemically accurate simulation of a prototypical surface reaction: H2 dissociation on Cu(111).

C Díaz¹, E Pijper, R A Olsen, H F Busnengo, D J Auerbach, G J Kroes.

Abstract

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).

Entities: Chemical

Year: 2009 PMID： 19892978 DOI： 10.1126/science.1178722

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

23 in total

1. Accurate surface and adsorption energies from many-body perturbation theory.

Authors: L Schimka; J Harl; A Stroppa; A Grüneis; M Marsman; F Mittendorfer; G Kresse
Journal: Nat Mater Date: 2010-07-25 Impact factor: 43.841

2. Apparent failure of the Born-Oppenheimer static surface model for vibrational excitation of molecular hydrogen on copper.

Authors: Geert-Jan Kroes; Cristina Díaz; Ernst Pijper; Roar A Olsen; Daniel J Auerbach
Journal: Proc Natl Acad Sci U S A Date: 2010-11-15 Impact factor: 11.205

3. Performance of Made Simple Meta-GGA Functionals with rVV10 Nonlocal Correlation for H₂ + Cu(111), D₂ + Ag(111), H₂ + Au(111), and D₂ + Pt(111).

Authors: Egidius W F Smeets; Geert-Jan Kroes
Journal: J Phys Chem C Nanomater Interfaces Date: 2021-04-21 Impact factor: 4.126

10. Vibrational Excitation of H₂ Scattering from Cu(111): Effects of Surface Temperature and of Allowing Energy Exchange with the Surface.

Authors: Geert-Jan Kroes; J I Juaristi; M Alducin
Journal: J Phys Chem C Nanomater Interfaces Date: 2017-06-05 Impact factor: 4.126

Chemically accurate simulation of a prototypical surface reaction: H2 dissociation on Cu(111).

1. Accurate surface and adsorption energies from many-body perturbation theory.

2. Apparent failure of the Born-Oppenheimer static surface model for vibrational excitation of molecular hydrogen on copper.

3. Performance of Made Simple Meta-GGA Functionals with rVV10 Nonlocal Correlation for H₂ + Cu(111), D₂ + Ag(111), H₂ + Au(111), and D₂ + Pt(111).

4. Anomalous Dependence of the Reactivity on the Presence of Steps: Dissociation of D₂ on Cu(211).

5. Surface Reaction Barriometry: Methane Dissociation on Flat and Stepped Transition-Metal Surfaces.

6. A general method for controlling and resolving rotational orientation of molecules in molecule-surface collisions.

7. Chemically Accurate Simulation of a Polyatomic Molecule-Metal Surface Reaction.

8. First-principles quantum dynamical theory for the dissociative chemisorption of H2O on rigid Cu(111).

9. Quantum Monte Carlo Calculations on a Benchmark Molecule-Metal Surface Reaction: H₂ + Cu(111).

10. Vibrational Excitation of H₂ Scattering from Cu(111): Effects of Surface Temperature and of Allowing Energy Exchange with the Surface.