The formation and diffusion of a vacancy in a silver nanocluster are studied via a combination of firstprinciples and statistical mechanics simulations. A 38-atom truncated-octahedral (TO) arrangement and its homologue with 37 Ag atoms and one vacancy are considered, and density-functional calculations are performed to derive the energies of the local minima and the energy barriers connecting them. These data are then used as an input for a study of the system dynamics via a kinetic Monte Carlo algorithm, evaluating site occupancies, diffusion coefficient and equilibration time. It is found that vacancy formation and diffusion represents a viable path for atomatom exchange in these conditions.
Simulation of vacancy diffusion in a silver nanocluster
Fortunelli A
2010
Abstract
The formation and diffusion of a vacancy in a silver nanocluster are studied via a combination of firstprinciples and statistical mechanics simulations. A 38-atom truncated-octahedral (TO) arrangement and its homologue with 37 Ag atoms and one vacancy are considered, and density-functional calculations are performed to derive the energies of the local minima and the energy barriers connecting them. These data are then used as an input for a study of the system dynamics via a kinetic Monte Carlo algorithm, evaluating site occupancies, diffusion coefficient and equilibration time. It is found that vacancy formation and diffusion represents a viable path for atomatom exchange in these conditions.| File | Dimensione | Formato | |
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