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美国能源部劳伦斯伯克利国家实验室和北卡罗莱纳大学的研究人员联合研究出一种高导电率混合电解质,结合了聚合物和玻璃两种固体电解质的特点,具有良好的兼容性,在电池进行循环时,可变形保持与电极接触,且具有优异的室温电导率。聚合物和玻璃或陶瓷是目前常用的固体电解质,但聚合物电解质在室温下导电性不好,需要被加热,玻璃或陶瓷电解质在室温下导电性好,但需要压力作用,以保持与电极接触。这种玻
US Department of Energy Lawrence Berkeley National Laboratory and the University of North Carolina researchers have jointly developed a high conductivity mixed electrolyte that combines the characteristics of both polymer and glass solid electrolyte has good compatibility in the battery Upon cycling, deformable remains in contact with the electrode and has excellent room temperature conductivity. Polymers and glass or ceramics are currently common solid electrolytes, but polymer electrolytes are poorly conductive at room temperature and need to be heated. Glass or ceramic electrolytes have good conductivity at room temperature but require pressure to maintain contact with the electrodes . This kind of glass