材料科学
离子电导率
离子键合
化学物理
离子
微晶
快离子导体
活化能
纳米尺度
陶瓷
电解质
热传导
相(物质)
纳米技术
物理化学
复合材料
电极
化学
有机化学
冶金
作者
André Schirmeisen,Ahmet Taskiran,Harald Fuchs,H. Bracht,Sevi Murugavel,Bernhard Roling
标识
DOI:10.1103/physrevlett.98.225901
摘要
The hopping movements of mobile ions in a nanostructured ${\mathrm{LiAlSiO}}_{4}$ glass ceramic are characterized by time-domain electrostatic force spectroscopy (TDEFS). While the macroscopic conductivity spectra are governed by a single activation energy, the nanoscopic TDEFS measurements reveal three different dynamic processes with distinct activation energies. Apart from the ion transport processes in the glassy and crystalline phases, we identify a third process with a very low activation energy, which is assigned to ionic movements at the interfaces between the crystallites and glassy phase. Such interfacial processes are believed to play a key role for obtaining high ionic conductivities in nanostructured solid electrolytes.
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