The use molecular dynamics simulations and density functional calculations for the investigation of amorphization mechanism of icosahedral Pt nanoclusters, was discussed. The mechanism involving rosette like structural transformation at fivefold vertices was reported. A fivefold vertex was transformed into a hexagonal ring. It was observed that for icosahedral Pt nanoclusters, this transformation was associated with an energy gain, which resulted in structures having low symmetry at icosahedral magic numbers.
Amorphization mechanism of icosahedral metal nanoclusters / E. Apra, F. Baletto, R. Ferrando, A. Fortunelli. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 93:6(2004), pp. 065502.65502-1-065502.65502-4. [10.1103/PhysRevLett.93.065502]
Amorphization mechanism of icosahedral metal nanoclusters
F. Baletto;
2004
Abstract
The use molecular dynamics simulations and density functional calculations for the investigation of amorphization mechanism of icosahedral Pt nanoclusters, was discussed. The mechanism involving rosette like structural transformation at fivefold vertices was reported. A fivefold vertex was transformed into a hexagonal ring. It was observed that for icosahedral Pt nanoclusters, this transformation was associated with an energy gain, which resulted in structures having low symmetry at icosahedral magic numbers.
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