这说明均匀设计法可用于快离子导体研究。
The Uniform Design is proved to be useful in the fast ion conductor research.
综述了快离子导体材料在能源领域中的应用。
In this paper, the applications of fast ion conductors in power source field are reviewed.
综述了快离子导体陶瓷的制备方法及应用领域。
The preparation and application of fast ionic conductors was reviewed.
综述了快离子导体陶瓷的制备方法及应用领域,并展望了快离子导体的发展前景。
The preparation of fast ionic conductors and its application are reviewed. In, addition, the possible future of research and development of fast ionic conductor are also presented.
采用以无机盐为基础的新型溶胶凝胶法合成了NA SICON 快离子导体材料。
Solid electrolyte NASICON (sodium super ionic conductor) was synthesized by new sol gel method in which inorganic salts were used as raw material.
快离子导体(有时又称固体电解质)是指离子电导率接近有时甚至超过盐溶液和电解质溶液的一类固态材料。
Fast ion conductors (sometimes are named solid electrolyte) are a kind of solid material which ion conductivity can near or exceed liquid electrolyte.
对其交、直流电性能进行了测量,结果表明铝蒙脱石快离子导体在室温下具有较高的交流电导率和较低的离子迁移活化能。
Study on its A. C. and D. C. characteristics was carried out and the results show that it has high ionic A. C. conductivity and lower ionic shifting activation energy at room temperature.
该导电模型可解释非均相玻璃态快离子导体的显微结构对其电导性质的影响,较好地预言了非均相玻璃态快离子导体的导电行为。
The conduction model can be used to explain the effect of the microstructure of heterogeneous GFIC on its conduction property and to predict its conduction behaviour.
该导电模型可解释非均相玻璃态快离子导体的显微结构对其电导性质的影响,较好地预言了非均相玻璃态快离子导体的导电行为。
The conduction model can be used to explain the effect of the microstructure of heterogeneous GFIC on its conduction property and to predict its conduction behaviour.
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