From blocker to booster:Harnessing garnet surface chemistry for advanced solid-state electrolytes  

作　　者：Jun Cheng Xuan Zhou Hongqiang Zhang Zhen Zeng Yuanyuan Li Yulong Zhu Yingsheng Liao Lijie Ci Deping Li 

机构地区：[1]State Key Laboratory of Precision Welding and Joining of Materials and Structures,School of Materials Science and Engineering,Harbin Institute of Technology(Shenzhen),Shenzhen 518055,China

出　　处：《Nano Research》2025年第1期323-331,共9页纳米研究（英文版）

基　　金：supported by National Natural Science Foundation of China(No.52002094);Shenzhen Science and Technology Program(Nos.JCYJ20210324121411031,JSGG202108021253804014 and RCBS20210706092218040);the Shenzhen Steady Support Plan(Nos.GXWD20221030205923001 and GXWD20201230155427003-20200824103000001);State Key Laboratory of Precision Welding&Joining of Materials and Structures(Nos.24-Z-17 and 24-T-08).

摘　　要：Garnet electrolytes with high ionic conductivity and electrochemical stability are widely used as fillers to fabricate composite solid electrolytes(CPEs)within polymer matrices.However,the performance of CPEs is significantly influenced by the surface characteristics of the garnet electrolyte.Herein,the impact of garnet surface characteristics on CPEs was systematically investigated and a conversion from a typically unstable and Lewis basic surface to a more stable Lewis acidic surface was realized,which is shown to be more conductive to the improved performance of CPEs.By simultaneously removing the Li_(2)CO_(3)layer and applying a Li-Al-O coating,the influence of surface characteristics on CPEs was investigated.The Lewis acid Li-Al-O surface coating not only promotes lithium salt dissociation,improving the ionic conductivity and ionic transfer number,but also prevents the reformation of the passive Lewis basic Li_(2)CO_(3)layer.Compared to garnet with a Lewis basic Li_(2)CO_(3)surface,the garnet modified with a Lewis acid Li-Al-O coating enhances CPEs,which exhibit an improved critical current density of 1.0 mA·cm^(-2)and highly stable lithium symmetric cell cycling for 400 h at 0.2 mA·cm^(-2).This research highlights the importance of surface chemistry in the design of high-performance solid-state batteries and presents a strategic modification approach for garnetbased CPEs.

关 键 词：garnet electrolyte composite solid electrolyte surface chemistry all-solid-state batteries 

分 类 号：O64[理学—物理化学]