学术文献库

Hybrid electrolyte materials comprising polymer-ionic salt matrixes embedded with garnet particles constitute a promising class of materials for the realization of all-solid-state batteries. In addition to providing solutions to the safety issues inherent to current liquid electrolytes, hybrid polymer electrolytes offer advantages over other solid-state electrolytes. This is because their functional properties such as ionic conductivity, electrochemical stability, mechanical and thermal properties can be tailored to a particular application by independently optimizing the properties of the constituent materials. Thereby, providing a rational approach to solving bottlenecks currently preventing solid-state electrolytes from practical implementation into battery devices. This review starts with a survey of solid-state electrolytes, focusing on their materials and ion transport limitations. Next, we summarize the current understanding of transport mechanisms in composite polymer electrolytes (CPEs) with the purpose of identifying materials solutions for further improving their properties. The overall goal of the review is to foster heightened research interest in these hybrid structures to rapidly advance development of future all-solid-state battery devices.