Global Optimization of Bimetallic Cluster Structures, II - Size-matched Ag-Pd, Ag-Au, and Pd-Pt Systems

G Rossi; R Ferrando; A Rapallo; A Fortunelli; Benjamin Curley; Lesley Lloyd; Roy Johnston

doi:10.1063/1.1898224

Global Optimization of Bimetallic Cluster Structures, II - Size-matched Ag-Pd, Ag-Au, and Pd-Pt Systems

G Rossi, R Ferrando, A Rapallo, A Fortunelli, Benjamin Curley, Lesley Lloyd, Roy Johnston

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Abstract

Genetic algorithm global optimization of Ag-Pd, Ag-Au, and Pd-Pt clusters is performed. The 34- and 38-atom clusters are optimized for all compositions. The atom-atom interactions are modeled by a semiempirical potential. All three systems are characterized by a small size mismatch and a weak tendency of the larger atoms to segregate at the surface of the smaller ones. As a result, the global minimum structures exhibit a larger mixing than in Ag-Cu and Ag-Ni clusters. Polyicosahedral structures present generally favorable energetic configurations, even though they are less favorable than in the case of the size-mismatched systems. A comparison between all the systems studied here and in the previous paper (on size-mismatched systems) is presented.

Original language	English
Pages (from-to)	194309
Number of pages	1
Journal	Journal of Chemical Physics
Volume	122
DOIs	https://doi.org/10.1063/1.1898224
Publication status	Published - 1 Jan 2005

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title = "Global Optimization of Bimetallic Cluster Structures, II - Size-matched Ag-Pd, Ag-Au, and Pd-Pt Systems",

abstract = "Genetic algorithm global optimization of Ag-Pd, Ag-Au, and Pd-Pt clusters is performed. The 34- and 38-atom clusters are optimized for all compositions. The atom-atom interactions are modeled by a semiempirical potential. All three systems are characterized by a small size mismatch and a weak tendency of the larger atoms to segregate at the surface of the smaller ones. As a result, the global minimum structures exhibit a larger mixing than in Ag-Cu and Ag-Ni clusters. Polyicosahedral structures present generally favorable energetic configurations, even though they are less favorable than in the case of the size-mismatched systems. A comparison between all the systems studied here and in the previous paper (on size-mismatched systems) is presented.",

author = "G Rossi and R Ferrando and A Rapallo and A Fortunelli and Benjamin Curley and Lesley Lloyd and Roy Johnston",

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T1 - Global Optimization of Bimetallic Cluster Structures, II - Size-matched Ag-Pd, Ag-Au, and Pd-Pt Systems

AU - Rossi, G

AU - Ferrando, R

AU - Rapallo, A

AU - Fortunelli, A

AU - Curley, Benjamin

AU - Lloyd, Lesley

AU - Johnston, Roy

PY - 2005/1/1

Y1 - 2005/1/1

N2 - Genetic algorithm global optimization of Ag-Pd, Ag-Au, and Pd-Pt clusters is performed. The 34- and 38-atom clusters are optimized for all compositions. The atom-atom interactions are modeled by a semiempirical potential. All three systems are characterized by a small size mismatch and a weak tendency of the larger atoms to segregate at the surface of the smaller ones. As a result, the global minimum structures exhibit a larger mixing than in Ag-Cu and Ag-Ni clusters. Polyicosahedral structures present generally favorable energetic configurations, even though they are less favorable than in the case of the size-mismatched systems. A comparison between all the systems studied here and in the previous paper (on size-mismatched systems) is presented.

AB - Genetic algorithm global optimization of Ag-Pd, Ag-Au, and Pd-Pt clusters is performed. The 34- and 38-atom clusters are optimized for all compositions. The atom-atom interactions are modeled by a semiempirical potential. All three systems are characterized by a small size mismatch and a weak tendency of the larger atoms to segregate at the surface of the smaller ones. As a result, the global minimum structures exhibit a larger mixing than in Ag-Cu and Ag-Ni clusters. Polyicosahedral structures present generally favorable energetic configurations, even though they are less favorable than in the case of the size-mismatched systems. A comparison between all the systems studied here and in the previous paper (on size-mismatched systems) is presented.

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DO - 10.1063/1.1898224

M3 - Article

C2 - 16161575

SN - 1089-7690

VL - 122

SP - 194309

JO - Journal of Chemical Physics

JF - Journal of Chemical Physics

ER -

Global Optimization of Bimetallic Cluster Structures, II - Size-matched Ag-Pd, Ag-Au, and Pd-Pt Systems

Abstract

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