Angle of incidence effects on H2 dissociation and adsorption on defective Pt (111) surface: An an initio study

Authors

Michelle T. Natividad, De La Salle University, Manila
Nelson B. Arboleda, De La Salle University, Manila
Hideaki Kasai, Osaka University

College

College of Science

Department/Unit

Physics

Document Type

Conference Proceeding

Source Title

Proceedings of the Thirteenth OU-DLSU Academic Research Workshop

Volume

13

Publication Date

9-2009

Abstract

In this study, we determine the dependence of H₂ adsorption on the incident angle by which H₂ approaches the vacant site in a Pt surface. We calculate the potential energy for H₂ dissociative adsorption on a defective P(111) surface as function of the H₂ interatomic distance r and the H₂ center of mass (CM) distance Z from the surface for different incident angels and approach sites. Potential energy plots as functions of the H₂ CM distance Z from the surface reveal that H₂ dissociative adsorption occurs for angels of incidence 15^o and 30^o for both the top site and FCC site as approach sites with one atom residing closer to the Pt surface than the other H atom. For the angel of incidence 0 = 55^o, adsorption does not occur for H₂ approaching the top site while it may occur but unstable for H₂ approaching the FCC site. No activation barrier was observed for H₂ approaching the top site at 0 = 15^o. The highest adsorption energy is found to occur at 0 = 15^o for both approach sites. The adsorption energy is found to decrease and may vanish as the incident angle is increased suggesting that H₂ adsorption is more favorable at small incident angles.

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Recommended Citation

Natividad, M. T., Arboleda, N. B., & Kasai, H. (2009). Angle of incidence effects on H2 dissociation and adsorption on defective Pt (111) surface: An an initio study. Proceedings of the Thirteenth OU-DLSU Academic Research Workshop, 13 Retrieved from https://animorepository.dlsu.edu.ph/faculty_research/11681

Disciplines

Physics

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