Surface compositions of Pt–Pd=Pd(111) alloys in the presence of O and OH during oxygen reduction reaction: A first-principles study
Abstract
©2019 The Physical Society of Japan The surface stability and compositions of catalysts under varied conditions play an important role in its activity and selectivity toward various reactions. In this paper, density functional theory based first principles calculations were used to investigate the stability and compositions of the first two layers of Pt–Pd alloys on Pd substrate under the electrode-potential dependent oxygen reduction conditions. The adsorption of O and OH have different preference surface compositions of Pt: Pd 50: 50 and Pt: Pd 0: 100, respectively. However, at high electrode potential, it is found that O should be dominant adsorbate on the surface. Therefore, the surface composition should favor the Pt: Pd 50: 50. Moreover, this oxygen covered surface is characterized by weakened surface Pt–Pt bonds, which is attributed to the increase in the population of the Pt–Pt antibonding state. These findings support the experimentally observed Pd segregation from the as-prepared Pt=Pd(111) to the composition of Pt: Pd ¼ 60: 40 during ORR.
Source or Periodical Title
Journal of the Physical Society of Japan
ISSN
319015
Document Type
Article
Recommended Citation
Chantaramolee, Bhume; Aspera, Susan Meñez; Arevalo, Ryan Lacdao; Arguelles, Elvis Flaviano; Kishida, Ryo; Padama, Allan Abraham Bustria; Kasai, Hideaki; and Nakanishi, Hiroshi, "Surface compositions of Pt–Pd=Pd(111) alloys in the presence of O and OH during oxygen reduction reaction: A first-principles study" (2021). Journal Article. 912.
https://www.ukdr.uplb.edu.ph/journal-articles/912