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首页> 外文期刊>Physical review >Ionic conductivity in Gd-doped CeO_2: Ab initio color-diffusion nonequilibrium molecular dynamics study
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Ionic conductivity in Gd-doped CeO_2: Ab initio color-diffusion nonequilibrium molecular dynamics study

机译:d掺杂CeO_2中的离子电导率:从头算色扩散非平衡分子动力学研究

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摘要

A first-principles nonequilibrium molecular dynamics (NEMD) study employing the color-diffusion algorithm has been conducted to obtain the bulk ionic conductivity and the diffusion constant of gadolinium-doped cerium oxide (GDC) in the 850-1150 K temperature range. Being a slow process, ionic diffusion in solids usually requires simulation times that are prohibitively long for ab initio equilibrium molecular dynamics. The use of the color-diffusion algorithm allowed us to substantially speed up the oxygen-ion diffusion. The key parameters of the method, such as field direction and strength as well as color-charge distribution, have been investigated and their optimized values for the considered system have been determined. The calculated ionic conductivity and diffusion constants are in good agreement with available experimental data.
机译:进行了第一原理的非平衡分子动力学(NEMD)研究,该研究使用了颜色扩散算法来获得the掺杂氧化铈(GDC)在850-1150 K温度范围内的体离子导电率和扩散常数。作为一个缓慢的过程,固体中的离子扩散通常需要很长的模拟时间,这对于从头算平衡分子动力学来说是非常长的。使用颜色扩散算法可以使我们大大加快氧离子的扩散速度。已经研究了该方法的关键参数,例如场方向和强度以及色电荷分布,并确定了所考虑系统的最佳值。计算出的离子电导率和扩散常数与可用的实验数据高度吻合。

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  • 来源
    《Physical review》 |2016年第2期|024102.1-024102.7|共7页
  • 作者

    Johan O. Nilsson; Olga Yu. Vekilova; Olle Hellman; Johan Klarbring; Sergei I. Simak; Natalia V. Skorodumova;

  • 作者单位

    Materials Science and Engineering, KTH - Royal Institute of Technology, Brinellvaegen 23, 100 44 Stockholm, Sweden;

    Materials Science and Engineering, KTH - Royal Institute of Technology, Brinellvaegen 23, 100 44 Stockholm, Sweden;

    Department of Physics, Chemistry and Biology (IFM), Linkoeping University, SE-581 83 Linkoeping, Sweden;

    Department of Physics, Chemistry and Biology (IFM), Linkoeping University, SE-581 83 Linkoeping, Sweden;

    Materials Science and Engineering, KTH - Royal Institute of Technology, Brinellvaegen 23, 100 44 Stockholm, Sweden;

    Materials Science and Engineering, KTH - Royal Institute of Technology, Brinellvaegen 23, 100 44 Stockholm, Sweden,Department of Physics and Astronomy, Uppsala University, Box 516, 751 20 Uppsala, Sweden;

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