On the dynamics of H2 adsorption on the Pt(111) surface

Peter Kraus; Irmgard Frank

doi:10.1002/qua.25407

Details

Originalsprache	Englisch
Aufsatznummer	e25407
Fachzeitschrift	International Journal of Quantum Chemistry
Jahrgang	117
Ausgabenummer	17
Frühes Online-Datum	30 Mai 2017
Publikationsstatus	Veröffentlicht - 5 Sept. 2017

Abstract

The dynamics and kinetics of the dissociation of hydrogen over the hexagonal close packed platinum (Pt(111)) surface are investigated using Car–Parrinello molecular dynamics and static density functional theory calculations of the potential energy surfaces. The calculations model the reference energy-resolved molecular beam experiments, considering the degrees of freedom of the catalytic surface. Two-dimensional potential energy surfaces above the main sites on Pt(111) are determined. Combined with Car–Parrinello trajectories, they confirm the dissociative adsorption of H₂ as the only adsorption pathway on this surface at H₂ incindence energies above 5 kJ/mol. A direct determination of energy-resolved sticking coefficients from molecular dynamics is also performed, showing an excellent agreement with the experimental data at incidence energies in the 5–30 kJ/mol range. Application of dispersion corrections does not lead to an improvement in the prediction of the H₂ sticking coefficient. The adsorption reaction rate obtained from the calculated sticking coefficients is consistent with experimentally derived literature values.

ASJC Scopus Sachgebiete

Physik und Astronomie (insg.)
Atom- und Molekularphysik sowie Optik
Physik und Astronomie (insg.)
Physik der kondensierten Materie
Chemie (insg.)
Physikalische und Theoretische Chemie

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On the dynamics of H₂ adsorption on the Pt(111) surface. / Kraus, Peter; Frank, Irmgard.
in: International Journal of Quantum Chemistry, Jahrgang 117, Nr. 17, e25407, 05.09.2017.

Publikation: Beitrag in Fachzeitschrift › Artikel › Forschung › Peer-Review

Kraus, P & Frank, I 2017, 'On the dynamics of H₂ adsorption on the Pt(111) surface', International Journal of Quantum Chemistry, Jg. 117, Nr. 17, e25407. https://doi.org/10.1002/qua.25407

Kraus, P., & Frank, I. (2017). On the dynamics of H₂ adsorption on the Pt(111) surface. International Journal of Quantum Chemistry, 117(17), Artikel e25407. https://doi.org/10.1002/qua.25407

Kraus P, Frank I. On the dynamics of H₂ adsorption on the Pt(111) surface. International Journal of Quantum Chemistry. 2017 Sep 5;117(17):e25407. Epub 2017 Mai 30. doi: 10.1002/qua.25407

Kraus, Peter ; Frank, Irmgard. / On the dynamics of H₂ adsorption on the Pt(111) surface. in: International Journal of Quantum Chemistry. 2017 ; Jahrgang 117, Nr. 17.

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N2 - The dynamics and kinetics of the dissociation of hydrogen over the hexagonal close packed platinum (Pt(111)) surface are investigated using Car–Parrinello molecular dynamics and static density functional theory calculations of the potential energy surfaces. The calculations model the reference energy-resolved molecular beam experiments, considering the degrees of freedom of the catalytic surface. Two-dimensional potential energy surfaces above the main sites on Pt(111) are determined. Combined with Car–Parrinello trajectories, they confirm the dissociative adsorption of H2 as the only adsorption pathway on this surface at H2 incindence energies above 5 kJ/mol. A direct determination of energy-resolved sticking coefficients from molecular dynamics is also performed, showing an excellent agreement with the experimental data at incidence energies in the 5–30 kJ/mol range. Application of dispersion corrections does not lead to an improvement in the prediction of the H2 sticking coefficient. The adsorption reaction rate obtained from the calculated sticking coefficients is consistent with experimentally derived literature values.

AB - The dynamics and kinetics of the dissociation of hydrogen over the hexagonal close packed platinum (Pt(111)) surface are investigated using Car–Parrinello molecular dynamics and static density functional theory calculations of the potential energy surfaces. The calculations model the reference energy-resolved molecular beam experiments, considering the degrees of freedom of the catalytic surface. Two-dimensional potential energy surfaces above the main sites on Pt(111) are determined. Combined with Car–Parrinello trajectories, they confirm the dissociative adsorption of H2 as the only adsorption pathway on this surface at H2 incindence energies above 5 kJ/mol. A direct determination of energy-resolved sticking coefficients from molecular dynamics is also performed, showing an excellent agreement with the experimental data at incidence energies in the 5–30 kJ/mol range. Application of dispersion corrections does not lead to an improvement in the prediction of the H2 sticking coefficient. The adsorption reaction rate obtained from the calculated sticking coefficients is consistent with experimentally derived literature values.

KW - AIMD

KW - Car–Parrinello

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KW - hydrogen adsorption

KW - platinum

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Research@Leibniz University

On the dynamics of H₂ adsorption on the Pt(111) surface

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