In this work we investigate the performance of several simulation techniques, i.e., Canonical Molecular Dynamics, Canonical Monte Carlo, and the Optimized Multicanonical Monte Carlo, to study melting-like transitions of Co/Au nanoalloys that are compared to those of pure Co and Au clusters of the same size. A surprising enhancement in the thermal stability of core/shell Co13Au42 is observed compared to both pure clusters of the same size and shape. The novel property is analyzed using energetic and vibrational contributions throughout a detailed microscopic dynamic analysis.
Thermal Properties of Co/Au Nanoalloys and Comparison of Different Computer Simulation Techniques
Rapallo A;Ferrando R;
2012
Abstract
In this work we investigate the performance of several simulation techniques, i.e., Canonical Molecular Dynamics, Canonical Monte Carlo, and the Optimized Multicanonical Monte Carlo, to study melting-like transitions of Co/Au nanoalloys that are compared to those of pure Co and Au clusters of the same size. A surprising enhancement in the thermal stability of core/shell Co13Au42 is observed compared to both pure clusters of the same size and shape. The novel property is analyzed using energetic and vibrational contributions throughout a detailed microscopic dynamic analysis.File in questo prodotto:
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