School of Chemistry and CRANN, Trinity College Dublin, Dublin 2, Ireland.
J Phys Condens Matter. 2011 Jun 29;23(25):255402. doi: 10.1088/0953-8984/23/25/255402. Epub 2011 Jun 9.
In this paper we present the parameterization of a new interionic potential for stoichiometric, reduced and doped CeO(2). We use a dipole polarizable potential (DIPPIM: the dipole polarizable ion model) and optimize its parameters by fitting them to a series of density functional theory calculations. The resulting potential was tested by calculating a series of fundamental properties for CeO(2) and by comparing them against experimental values. The values for all the calculated properties (thermal and chemical expansion coefficients, lattice parameters, oxygen migration energies, local crystalline structure and elastic constants) are within 10-15% of the experimental ones, an accuracy comparable to that of ab initio calculations. This result suggests the use of this new potential for reliably predicting atomic scale properties of CeO(2) in problems where ab initio calculations are not feasible due to their size limitations.
本文提出了一种新的化学计量、还原和掺杂 CeO(2) 离子间势的参数化方法。我们使用了偶极极化势(DIPPIM:偶极极化离子模型),并通过将其拟合到一系列密度泛函理论计算来优化其参数。通过计算 CeO(2) 的一系列基本性质并将其与实验值进行比较来测试得到的势。所有计算性质(热膨胀系数、化学膨胀系数、晶格参数、氧迁移能、局部晶体结构和弹性常数)的值与实验值的偏差在 10-15%以内,与从头算计算的精度相当。这一结果表明,在由于尺寸限制而无法进行从头算计算的情况下,该新势可用于可靠地预测 CeO(2) 的原子尺度性质。
