Stability of atomic oxygen chemisorption on Pt-alloy surfaces

Publons ID19524834
Wos IDWOS:000373108400001
Doi10.1002/sia.5936
TitleStability of atomic oxygen chemisorption on Pt-alloy surfaces
First AuthorCahyanto, Wahyu Tri; Widanarto, Wahyu; Effendi, Mukhtar; Kasai, Hideaki;
Last Author
AuthorsCahyanto, WT; Widanarto, W; Effendi, M; Kasai, H;
Publish DateAPR 2016
Journal NameSURFACE AND INTERFACE ANALYSIS
Citation3
AbstractA density functional theory calculation is used to investigate the atomic oxygen (O) stability over platinum (Pt) and Pt-based alloy surfaces. Here, the stability is connected with the preferential adsorption sites for O chemisorptions and the adsorption energy. Thus, the interaction mechanism between atomic O and metal surfaces is studied by using charge transfer analysis. In this present paper, atomic structure and binding energy of oxygen adsorption on the Pt(111) are in a very good agreement with experiment and previous density functional theory calculations. Furthermore, we obtained that the addition of ruthenium (Ru) and molybdenum (Mo) on the pure Pt surface enhances the adsorption energy. Our charge transfer analysis shows that the largest charge transfer contributing to the metal-O bonding formation is observed in the case of O/PtRuMo surface followed by O/PtRu surface. This is in consistency with metal d-orbital characteristic, where Mo has much more empty d-orbital than Ru in correspondence to accept electrons from atomic oxygen. Copyright (c) 2016 John Wiley & Sons, Ltd.
Publish TypeJournal
Publish Year2016
Page Begin181
Page End185
Issn0142-2421
Eissn1096-9918
Urlhttps://www.webofscience.com/wos/woscc/full-record/WOS:000373108400001
AuthorWAHYU TRI CAHYANTO, S.Si, M.Si, Ph.D
File2761.pdf