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。
Then better ionic conductors and more promising designs emerged, and its popularity waned.
后来随着更好的离子导体和更多先进技术的出现,它的优势已逐渐消失。
A generalized lattice model of overlapping particles of Dispersed Ionic Conductors (DIC) is introduced.
提出了一种掺杂离子导体(dic)的粒子交叠广义晶格模型。
The above shows that a new and suitable method for the multi-compound lithium ionic conductors should be found.
所以有必要探索适合多组分锂离子导体材料的新型合成方法;
Mixing some ionic conductors and oxide ceramic together to form composite electrolyte, at most cases, can enhance materials' conductivity.
将某些离子导体与氧化物陶瓷结合起来构成复合电解质,在大多数情况下可提高材料的电导率。
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.
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。
Error currents also arise from electrochemical effects when ionic chemicals create weak batteries between two conductors on a circuit board.
当离子化学物质在电路板上的两个导体之间生成弱的化学电池时,电化学效应就会产生误差电流。
Error currents also arise from electrochemical effects when ionic chemicals create weak batteries between two conductors on a circuit board.
当离子化学物质在电路板上的两个导体之间生成弱的化学电池时,电化学效应就会产生误差电流。
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