粘度
解耦(概率)
电导率
网络结构
离子电导率
化学物理
材料科学
离子键合
离子
离子液体
化学
热力学
复合材料
物理化学
物理
有机化学
催化作用
控制工程
机器学习
电解质
电极
计算机科学
工程类
作者
Mathieu Salanne,Christian Simon,Pierre Turq,Paul A. Madden
摘要
The relationships between the ionic mobility, the viscosity, and the atomic-scale structure are investigated in computer simulations of mixtures of LiF and the network glass-forming material BeF(2). The simulations span a wide range of compositions, across which the fluidity of the system changes greatly due to the break-up of the Be-F network by the addition of the LiF. The relationship between the conductivity and viscosity passes from that expected for independently diffusing ions in the dilute mixtures to strongly decoupled Li+ migration through a viscous network at higher concentrations. The transition between these régimes is linked to the changing local and intermediate-scale structure in the melts. The decoupling phenomenon is associated with the appearance of migration channels in the network which leads to cooperative effects in the Li+ migration.
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