八面体
材料科学
过渡金属
离子
化学物理
扩散
兴奋剂
电极
锂(药物)
格子(音乐)
四面体
晶格常数
金属
无机化学
结晶学
物理化学
化学
热力学
催化作用
物理
有机化学
声学
衍射
光电子学
生物化学
冶金
医学
内分泌学
光学
作者
Kisuk Kang,Gerbrand Ceder
标识
DOI:10.1103/physrevb.74.094105
摘要
The diffusion constant of Li in electrode materials is a key aspect of the rate capability of rechargeable Li batteries. The factors that affect Li mobility in layered lithium transition metal oxides are systematically studied in this paper by means of first-principles calculations. In close packed oxides octahedral ions diffuse by migrating through intermediate tetrahedral sites. Our results indicate that the activation barrier for Li hopping is strongly affected by the size of the tetrahedral site and the electrostatic interaction between ${\mathrm{Li}}^{+}$ in that site and the cation in the octahedron that shares a face with it. The size of the tetrahedral site is determined by the $c$-lattice parameter which has a remarkably strong effect on the activation barrier for Li migration. The effect of other factors such as cation mixing and doping with nontransition metal ions can be interpreted quantitatively in terms of the size and electrostatic effect. A general strategy to design high rate electrode materials is discussed.
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