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A quasicore-shell structure of FeCo and FeNi nanoparticles

机译:FeCo和FeNi纳米粒子的准核壳结构

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摘要

Based on semiempirical generalized embedded atom method (GEAM), we carried out molecular dynamics and Monte Carlo simulations to study the structural properties of FeCo and FeNi nanoparticles. It is found that these two kinds of nanoparticles possess a new stable quasicore-shell structure, no matter whether they are in molten or condensed state and whether they are prepared by annealing or quenching. In FeCo (FeNi) nanoparticles of various sizes and atom compositions, the . quasicore-shell structure is always preferred, with the shell formed only by Fe atoms and the core formed by randomly distributed Co(Ni) and Fe atoms. We have also investigated the formation mechanism of the quasicore-shell structure by energy difference analysis of the pure and doped icosahedra structure of FeCo and FeNi nanoparticles.
机译:基于半经验的广义嵌入原子方法(GEAM),我们进行了分子动力学和蒙特卡洛模拟,研究了FeCo和FeNi纳米粒子的结构特性。发现这两种纳米粒子无论是处于熔融状态还是凝结状态以及通过退火或淬火制备都具有新的稳定的准核-壳结构。在各种尺寸和原子组成的FeCo(FeNi)纳米颗粒中,准核-壳结构总是优选的,壳仅由Fe原子形成,而核由无规分布的Co(Ni)和Fe原子形成。我们还通过对FeCo和FeNi纳米粒子的纯净和掺杂的二十面体结构进行能量差分析,研究了准核-壳结构的形成机理。

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  • 来源
    《Journal of Applied Physics》 |2010年第10期|p.104314.1-104314.5|共5页
  • 作者

    L. J. Meng; X. Y. Peng; C. Tang; K. W. Zhang; G. M. Stocks; J. x. Zhong;

  • 作者单位

    Key Laboratory of Quantum Engineering and Micro-Nano Energy Technology of Hunan Province, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China and Faculty of Material and Photoelectronic Physics, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China;

    Key Laboratory of Quantum Engineering and Micro-Nano Energy Technology of Hunan Province, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China and Faculty of Material and Photoelectronic Physics, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China;

    Key Laboratory of Quantum Engineering and Micro-Nano Energy Technology of Hunan Province, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China and Faculty of Material and Photoelectronic Physics, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China;

    Key Laboratory of Quantum Engineering and Micro-Nano Energy Technology of Hunan Province, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China and Faculty of Material and Photoelectronic Physics, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China;

    Oak Ridge National Laboratory, P.O. Box 2008, Oak Ridge, Tennessee 37831-6016, USA;

    Key Laboratory of Quantum Engineering and Micro-Nano Energy Technology of Hunan Province, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China and Faculty of Material and Photoelectronic Physics, xiangtan University, Hunan Province, xiangtan 411105, People's Republic of China;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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