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O: Fachverband Oberflächenphysik

O 119: Oxides III: Single-Atom Catalysis, Iron Oxides

O 119.4: Vortrag

Freitag, 20. März 2020, 11:30–11:45, REC C 213

Influence of Surface Dynamics on Oxidation Processes: Case Study of H₂O_surf Desorption on Fe₃O₄(001) — •Matthias Meier^1,2, Jan Hulva¹, Zdeněk Jakub¹, Florian Kraushofer¹, Manuel Ulreich¹, Michael Schmid¹, Ulrike Diebold¹, Cesare Franchini², and Gareth S. Parkinson¹ — ¹Institute of Applied Physics, TU Wien — ²Center for Computational Materials Science, Faculty of Physics, University of Vienna

Experiments performed under UHV, on so called "model systems", where surfaces are well defined and controlled, are combined with DFT calculations to propose reaction mechanisms and determine activation barriers of relevant chemical processes.

Fe₃O₄(001) is such a model system. It is debatable whether the observed surface in UHV is also maintained under real catalytic conditions, such as high pressure, or electrochemical environments. Our results indicate that the surface undergoes modifications, already in UHV and in some cases even below room temperature. O distortions and Fe displacements can occur for any given transition state along a reaction path, if energetically favored. So if their costs are at least compensated by the gain in adsorption energies of present adsorbates or the reduction of activation barriers.

We show here an example of how these surface dynamics influence H mobility, the formation and extraction of H₂O_surf and their consequences on experimental observations.