相间
材料科学
阳极
电解质
溶解
锂(药物)
阴极
化学工程
离子液体
枝晶(数学)
电化学
金属
氧化物
过渡金属
电化学窗口
硫化物
无机化学
液态金属
锂离子电池的纳米结构
复合数
储能
阳离子聚合
离子电导率
金属锂
半电池
作者
Li Jin,Chen Junjie,Xu Xiaosa,Wang Zhenyu,Guo, Zixiao,Lin, Pengzhu,Sun Jing,Huang Bao-ling,Zhao Tianshou,Li Jin,Chen Junjie,Xu Xiaosa,Wang Zhenyu,Guo, Zixiao,Lin, Pengzhu,Sun Jing,Huang Bao-ling,Zhao Tianshou
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2025-11-14
卷期号:11 (46): eadz5203-eadz5203
标识
DOI:10.1126/sciadv.adz5203
摘要
Quasi–solid-state lithium metal batteries (QSSLMBs) are hindered by interfacial instability at high-voltage cathodes and uncontrolled lithium dendrite growth at the anode, limiting their cycling life and energy density. To overcome these challenges, we have developed a piperidine-based ionic liquid (IL) additive featuring a methylthiolation cationic segment that stabilizes the interphase of layered oxide cathodes and lithium anodes under fast charging and high-voltage conditions. These ILs preferentially oxidize to form a robust cathode-electrolyte interphase with LiF and sulfide species, which effectively suppresses dissolution of transition metal and enhances interfacial ion transport. Simultaneously, the IL-derived diverse inorganic species composite interphase at the anode improves mechanical strength and inhibits lithium dendrite growth. The resulting quasi–solid-state electrolyte demonstrates stable operation at a high voltage of 4.5 V, high mass loading of 21.6 mg cm −2 , high–energy density of 407 Wh kg −1 , and broad temperature range from −20° to 60°C, advancing the practical application of QSSLMBs.
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