ionic conductor meaning in Chinese
离子导体
Examples
- Ionic conductors have extensive and valuable use in the energy and material fields
离子导体在材料和能源领域有着广泛的应用前景。 - The research of the new and high conductivity material of lithium ionic conductor is always an interesting issue in the material field due to its low potential , light weight and providing high cell voltage and energy density
由于锂具有较负的电极电势和较轻的重量,可以为电化学器件提供高的电池电压和能量密度,所以锂离子导体高电导率新材料的研究一直是材料研究领域倍受关注的课题之一。 - The basic results include three aspects : the interests of lithium ionic conductors focused on the simple compounds , solid solution ( substitution by aliovalent and isovalent ) and the small composites which mostly are al2o3 as the second phase and some simple compounds as the matrix
文献的基本结论是:对于锂离子导体的研究主要集中在单相化合物、固溶体(等价或异价取代)及少数以单一化合物为基、以al _ 2o _ 3等为第二相的复合体系。 - This technology uses alkali metal ( such as lithium , potassium and sodium ) as the working fluid , base ( " - a1 _ ( 2 ) o _ ( 3 ) solid electrolyte ) as the medium . this technology is based on the unique properties of base that is an excellent ionic conductor but a poor electron conductor
Amtec利用碱金属(锂、钾、钠)作为工作物质, base ( - al _ 2o _ 3solidelectrolyte )作为介质,这种陶瓷材料对离子是良导体,对电子几乎是绝缘体,这一点也是这种能量转换技术的基础。 - The questions the researcher concerned are which system will be chosen and how to obtain the good lithium ionic conductor materials , which is the basic departure of the paper . the addition of second phase in composite can change the interface structure and the conduction mechanism , improve the matrix conductivity and other function such as the sintering , crisping and so on , so the research of composites are an interesting field of the ionic conductors . the synthesis of lithium ionic conductor is often by solid state reaction , but this method needs high temperature and leads to the volatility of lithium which not only causes the drift of the compounds but gets the no well - distributed materials
研究者所关注的问题是选择新的体系进行研究,以期得到性能更好的锂离子导体材料,这也正是本论文的基本出发点;复合离子导体中第二相的加入改善了基质的界面结构和导电机制,不仅可以提高基质材料的电导率,还可以在一定程度上改善材料的其它性能,如烧结性能、脆性和机械强度等。因此复合材料的研究是离子导体一个有广阔前景的发展方向;合成锂离子导体,特别是成分复杂的体系以传统的固相合成法为主,但这种方法需要较高的温度,容易引起锂的挥发,从而造成产物组成的偏移,而且不易得到显微结构均匀的材料。