金属锂
溶剂化
齿合度
锂(药物)
材料科学
螯合作用
配体(生物化学)
金属
无机化学
纳米技术
物理化学
化学
离子
有机化学
电解质
冶金
电极
医学
生物化学
受体
内分泌学
作者
Jing Lian,Shendong Tan,Jiatao Lou,Jiaqi Lan,Wenting Cui,Zhuo Han,Guorui Zheng,Tingzheng Hou,Wei Lv,Ming Liu,Ziqiang Wang
标识
DOI:10.1002/adfm.202421802
摘要
Abstract Electrolyte engineering is a key strategy for achieving high‐energy lithium metal batteries. Among various solvents, fluorinated ether‐based electrolytes have shown promising results. However, these solvents often have several limitations: weak solvating ability, electrochemical reduction instability, and potential environmental hazards. Herein, a novel cyanated hexacyclic ether electrolyte (CHEE) is reported. The terminal cyano group (─CN) of solvent facilitates efficient Li + transport through its coordination ability, while the electron‐withdrawing nature of ─CN weakens the solvating ability of the ether oxygen atom. This modification leads to anion‐dominated solvation structures, wherein the nitrogen atom serves as the primary coordination site in the coordinated solvent. This unique non‐chelating, multidentate ligand enables a robust solid‐electrolyte interphase (SEI) and excellent electrochemical performance of lithium metal batteries. CHEE enables a Li–Cu cell to achieve a high coulombic efficiency of 99.5%, while a Li‐NMC811 cell demonstrates a capacity retention of 91% after 300 cycles. Notably, the Li‐NMC811 cell maintains stable cycling for 200 cycles at an elevated temperature of 60 °C. Furthermore, CHEE enables the operation of a Li‐NMC811 pouch cell with a low N/P, achieves a high capacity of 1.25 Ah. This study highlights the potential of cyanated ether in developing novel electrolyte systems for high‐performance lithium metal batteries.
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