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Ag309团簇升温过程中结构转变的分子动力学模拟研究
引用本文:肖绪洋,代武春,夏继宏.Ag309团簇升温过程中结构转变的分子动力学模拟研究[J].原子与分子物理学报,2013,30(6):585-590.
作者姓名:肖绪洋  代武春  夏继宏
作者单位:重庆文理学院
摘    要:采用分子动力学模拟研究了具有面心立方(fcc)晶格结构的截断八面体Ag309团簇升温过程中结构演变。对团簇的能量曲线变化、快照图演变和键对分析表明:无缺陷截断八面体Ag309团簇在410 K时转变为二十面体,在840 K时熔化;不同缺陷诱导二十面体结构转变温度异常变化,沿晶面滑移缺陷使二十面体转变温度升高,沿晶面旋转缺陷使二十面体结构转变温度降低;不同缺陷对团簇键型和势能产生的影响是使二十面体结构转变温度异常变化的主要诱导因素。这种通过缺陷控制团簇结构转变的研究为新型纳米结构的可控制备提供理论基础。

关 键 词:团簇  分子动力学  结构转变  缺陷

The Study of Structural Transformation for Ag309 Clusters with Molecular Dynamics Method
Xiao Xu-Yang.The Study of Structural Transformation for Ag309 Clusters with Molecular Dynamics Method[J].Journal of Atomic and Molecular Physics,2013,30(6):585-590.
Authors:Xiao Xu-Yang
Institution:School of Electronics Engineering, Chongqing University of Arts and Sciences
Abstract:The melting process of free and defect cuboctahedral Ag309 clusters has been studied by method of molecular dynamics. During the structure transformation from cuboctahedron to icosahedrals process, the variation of potential energy, the snapshots at different temperatures and the pair analysis technique are used. It is found that the cluster becomes into the icosahedral structure at 410 K and becomes into the liquid at 840 K for the free cuboctahedral Ag309 cluster. And the process of structural transformation from cuboctahedron to icosahedrals is influenced by defect, in which the temperature of structural transformation increases with slip defect, and decreases with screw defect. The different bond-types and potential energies of clusters play a key role for the icosahedrals transforming temperature. The irregular phenomenon during the melting is strongly related to the defect and gives an effective method to tune the novel nanomaterial.
Keywords:clusters  molecular dynamics method  structural transformation  defec
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