Adsorption of a single gold or silver atom on vanadium oxide clusters

The bonding properties between a single atom and its support have a close relationship with the stability and reactivity of single-atom catalysts. As a model system, the structural and electronic properties of bimetallic oxide clusters MV 3 O y q (M = Au or Ag, q = 0, ±1, and y = 6-8) are systematic...

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Bibliographic Details
Published in:Physical chemistry chemical physics : PCCP 2016-04, Vol.18 (14), p.9497-953
Main Authors: Ding, Xun-Lei, Wang, Dan, Li, Rui-Jie, Liao, Heng-Lu, Zhang, Yan, Zhang, Hua-Yong
Format: Article
Language:English
Subjects:
Bonding
Catalysis
Catalysts
Chemical bonds
Clusters
Gold
Noble metals
Oxides
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Summary:The bonding properties between a single atom and its support have a close relationship with the stability and reactivity of single-atom catalysts. As a model system, the structural and electronic properties of bimetallic oxide clusters MV 3 O y q (M = Au or Ag, q = 0, ±1, and y = 6-8) are systematically studied using density functional theory. The single noble metal atom Au or Ag tends to be adsorbed on the periphery of the V oxide clusters. Au prefers V sites for oxygen-poor clusters and O sites for oxygen-rich clusters, while Ag prefers O sites for most cases. According to natural population analysis, Au may possess positive or negative charges in the bimetallic oxide clusters, while Ag usually possesses positive charges. The bonding between Au and V has relatively high covalent character according to the bond order analysis. This work may provide some clues for understanding the bonding properties of single noble metal atoms on the support in practical single-atom catalysts, and serve as a starting point for further theoretical studies on the reaction mechanisms of related catalytic systems. The single Au atom can be adsorbed on both V and O sites of vanadium oxide clusters with quite large binding energies, illustrating the stabilization of noble atoms in single-atom catalysts.
ISSN:1463-9076
1463-9084
DOI:10.1039/c6cp00808a