Oxygen chemisorption effects on the spatial atomic distribution of CuNi, CuPd and NiPt nanostructures
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The spatial atomic distribution in cubo-octahedral CuNi, CuPd and NiPt clusters with a total number of atoms, N = 147, in the presence of chemisorbed oxygen, is studied. The equilibrium atomic configuration is obtained by calculating the free energy within the regular solution model and by assuming that the surface of the cluster is covered by oxygen atoms. Depending on the interaction between oxygen and the cluster components, the atomic distribution in the cluster can be completely modified as compared to the case of clusters with a clean surface. We present result for the temperature dependence of the concentration at the different shells around the central atom. © 1993.
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Chemisorption; Copper alloys; Crystal microstructure; Mathematical models; Nickel alloys; Oxygen; Palladium alloys; Platinum alloys; Thermal effects; Clusters; Copper nickel alloys; Copper palladium alloys; Equilibrium atomic configuration; Free energy calculations; Nickel platinum alloys; Regular solution model; Spatial atomic distribution; Surfaces
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