Design of Robust and Reactive Nanoparticles with Atomic Precision: 13Ag-Ih and 12Ag-1X (X = Pd, Pt, Au, Ni, or Cu) Core-Shell Nanoparticles
Density functional theory calculations and a modified reaction model confirm that the initial high CO oxidation reactivity of a 13Ag-Ih nanoparticle from an icosahedron (Ih) structure is immediately diminished as the nanoparticle is transformed to an amorphous state by a reaction-driven structural change. The adsorption of O(2) and the formation of a four-center intermediate metastable state from coadsorbed CO and O(2) Positively charge the 13Ag-Ih nanoparticle, and the repulsive force between the Ag atoms causes the reaction-driven structural change of the 13Ag-Ih nanoparticle. When one central Ag atom is substituted with a solute atom, a core-shell type of 12Ag-1X-Ih (X = Pd, Pt, Au, Ni, or Cu) bimetallic nanoparticle is stabilized. Among them, we propose the 12Ag-1Pd nanoparticle as a robust and reactive Ag-based bimetallic nanoparticle for CO oxidation. The results show that the structural fluxionality accounts for the catalytic activity of small nanoparticles.
- Publisher
- AMER CHEMICAL SOC
- Issue Date
- 2009-09
- Language
- English
- Article Type
- Article
- Keywords
DENSITY-FUNCTIONAL THEORY; SYNCHRONOUS-TRANSIT METHOD; CATALYTICALLY ACTIVE GOLD; STRUCTURAL-PROPERTIES; BIMETALLIC CLUSTERS; CARBON-MONOXIDE; 1ST PRINCIPLES; OXIDATION; NANOCLUSTERS; CATALYSTS
- Citation
JOURNAL OF PHYSICAL CHEMISTRY C, v.113, no.35, pp.15559 - 15564
- ISSN
- 1932-7447
- Appears in Collection
- MS-Journal Papers(저널논문)
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