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锂离子电池玻璃态电解质导电机理的研究进展
引用本文:郑玥雷,陈人杰,吴锋,李丽. 锂离子电池玻璃态电解质导电机理的研究进展[J]. 无机材料学报, 2013, 28(11): 1172-1180. DOI: 10.3724/SP.J.1077.2013.13108
作者姓名:郑玥雷  陈人杰  吴锋  李丽
作者单位:(1. 北京理工大学 化工与环境学院 环境科学与工程北京市重点实验室, 北京100081; 2. 国家高技术绿色材料发展中心, 北京100081)
基金项目:科技部国际合作项目(2010DFB63370);国家高技术研究发展计划(2011AA11A256);国家自然科学基金(21373028);教育部新世纪优秀人才支持计划(NCET-12-0050);北京市科技新星计划(2010B018)~~
摘    要:锂离子电池玻璃态电解质同晶体型电解质相比较具有导电性各向同性、锂离子电导率高等诸多优点, 开发在室温下具有较高的离子电导率及良好的化学、电化学稳定性的玻璃态电解质材料已经成为锂离子电池领域的重要研究方向之一。本文介绍了各种玻璃态电解质体系的导电特性及导电机理, 并重点分析与讨论混合网络形成体效应在一些典型玻璃态电解质体系中的微观作用机理。本文还总结了混合网络形成体效应在玻璃态电解质中发生的前提条件, 并指出深入研究玻璃态电解质的导电机理对开发出具有优异电化学性能的无机非晶固态电解质体系具有重要的指导意义。

关 键 词:锂离子电池  玻璃态电解质  混合网络形成体效应  相分离  综述  
收稿时间:2013-03-07
修稿时间:2013-04-23

Progress of Research on the Conductive Mechanism of the Glassy Electrolytes in Lithium Ion Batteries
ZHENG Yue-Lei;CHEN Ren-Jie;WU Feng;LI Li. Progress of Research on the Conductive Mechanism of the Glassy Electrolytes in Lithium Ion Batteries[J]. Journal of Inorganic Materials, 2013, 28(11): 1172-1180. DOI: 10.3724/SP.J.1077.2013.13108
Authors:ZHENG Yue-Lei  CHEN Ren-Jie  WU Feng  LI Li
Affiliation:(1. Beijing Key Laboratory of Environmental Science and Engineering, School of Chemical Engineering and the Environment, Beijing Institute of Technology, Beijing 100081, China; 2. National Development Center of High Technology Green Materials, Beijing 100081, China)
Abstract:Glassy electrolytes have broad prospects for the application in all solid-state lithium ion batteries since they have isotropic conductivity and higher lithium ionic conductivity compared with ceramic electrolytes. In recent years, numerous groups have attempted to improve the lithium ionic conductivity, chemical and electrochemical stability of glassy electrolytes through nitrogen-incorporation by radio-frequency magnetron sputtering, preparing mixed former glasses and glass-ceramics by special technologies. In present review, conductive characteristics and mechanism in various glassy electrolytes are introduced. The micro-mechanisms of mixed former effect in several typical glassy electrolytes are discussed emphatically. The mixed former effect produces the non-bridge oxygen providing lithium-ion with the vacant place to move into or out, as well as expanding the lithium-ion conduction pathway to enhance ionic mobility in the network. The effect is brought about by the phase separation in micro structure of glassy electrolytes, which can be described as the isolation of continuous Li-rich phase with high ionic conductivity and isolated Li-poor phase with low ionic conductivity in micro structure. Finally, the premise conditions of mixed former effect occurring to a ternary glassy are summarized. Further study on conductive mechanisms of glassy electrolytes has important guiding significance for theory in developing glassy electrolytes with good chemical and electrochemical performances.
Keywords:lithium ion batteries  glassy electrolytes  mixed former effect  phase separation  review  
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