In-Situ Solid Electrolyte Interface via Dual Reaction Strategy for Highly Reversible Zinc Anode

被引:0
|
作者
Xu, Peiwen [1 ,2 ]
Xu, Mi [1 ,2 ]
Zhang, Jie [1 ,2 ]
Zou, Jiabin [1 ,2 ]
Shi, Yue [1 ,2 ]
Luo, Dan [1 ,2 ]
Wang, Dongdong [1 ,2 ]
Dou, Haozhen [1 ,2 ]
Chen, Zhongwei [1 ]
机构
[1] Chinese Acad Sci, Dalian Inst Chem Phys, Power Battery & Syst Res Ctr, Dalian 116023, Liaoning, Peoples R China
[2] Chinese Acad Sci, Dalian Inst Chem Phys, State Key Lab Catalysis, Dalian 116023, Liaoning, Peoples R China
来源
ANGEWANDTE CHEMIE-INTERNATIONAL EDITION | 2024年
关键词
Aqueous zinc-ion batteries 1; solid-electrolyte interface 2; electrolyte additive 3; in situ construction 4; electrostatic interaction 5; LITHIUM METAL; HIGH-ENERGY; WATER;
D O I
10.1002/anie.202407909
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
In situ construction of solid electrolyte interfaces (SEI) is an effective strategy to enhance the reversibility of zinc (Zn) anodes. However, in situ SEI to afford high reversibility under high current density conditions (>= 20 mA cm-2) is highly desired yet extremely challenging. Herein, we propose a dual reaction strategy of spontaneous electrostatic reaction and electrochemical decomposition for the in situ construction of SEI, which is composed of organic-rich upper layer and inorganic-rich inner layer. Particularly, in situ SEI performs as "growth binder" at small current density and "orientation regulator" at high current density, which significantly suppresses side reactions and dendrite growth. The in situ SEI affords the record-breaking reversibility of Zn anode under practical conditions, Zn//Zn symmetric cells can stably cycle for over 1300 h and 400 h at current densities of 50 mA cm-2 and 100 mA cm-2, respectively, showcasing an exceptional cumulative capacity of 67.5 Ah cm-2. Furthermore, the practicality of this in situ SEI is verified in Zn//PANI pouch cells with high mass loading of 25.48 mg cm-2. This work provides a universal strategy to design advanced SEI for practical Zn-ion batteries. Ultrathin layered solid electrolyte interface (SEI) is in situ constructed by dual reaction strategy, which synergistically utilizes spontaneous electrostatic reaction and electrochemical decomposition via introducing the functional additive CMIM (1-carboxymethyl-3-methylimidazolium chloride). CMIM ' s unique molecular structure also enables the disruption of hydrogen bonding, guides uniform Zn2+ deposition, and promotes rapid ion transfer to enhance battery stability, thus affording highly reversible queous zinc-ion batteries. image
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页数:13
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