Facilely constructing ultrahigh lattice-matched CuZn5 epitaxial interface for dendrite-free Zn metal anode

被引:24
作者
Cao, Jin [1 ,2 ,3 ]
Wu, Haiyang [2 ]
Yue, Yilei [4 ]
Zhang, Dongdong [3 ,5 ]
Li, Biaoyang [2 ]
Luo, Ding [2 ]
Zhang, Lulu [2 ]
Qin, Jiaqian [6 ]
Zhang, Xinyu [3 ]
Yang, Xuelin [2 ]
机构
[1] China Three Gorges Univ, Coll Hydraul & Environm Engn, Yichang 443002, Hubei, Peoples R China
[2] China Three Gorges Univ, Coll Elect Engn & New Energy, Hubei Prov Collaborat Innovat Ctr New Energy Micro, Yichang 443002, Peoples R China
[3] Yanshan Univ, State Key Lab Metastable Mat Sci & Technol, Qinhuangdao 066004, Hebei, Peoples R China
[4] North China Inst Aerosp Engn, Coll Mat Engn, Langfang 065000, Hebei, Peoples R China
[5] Shenyang Univ Technol, Sch Mat Sci & Engn, Shenyang 110870, Liaoning, Peoples R China
[6] Chulalongkorn Univ, Met & Mat Sci Res Inst, Ctr Excellence Adv Mat Energy Storage, Bangkok 10330, Thailand
来源
JOURNAL OF ENERGY CHEMISTRY | 2024年 / 99卷
基金
国家重点研发计划; 中国国家自然科学基金;
关键词
Zn anode; CuZn; 5; alloy; Lattice matching; Dendrites; Side reactions; ZINC;
D O I
10.1016/j.jechem.2024.08.023
中图分类号
O69 [应用化学];
学科分类号
081704 ;
摘要
Constructing a protective layer on Zn anode surface with high lattice matching to Zn (002) can facilitate preferential growth along the (002) crystal plane and suppress dendritic growth as well as interface side reactions. Whereas most of protective layers are complex and costly, making commercial applications challenging. Herein, we introduce a facile method involving the addition of CuCl2 electrolyte additives to conventional electrolyte systems, which, through rapid displacement reactions and controlled electrochemical cycling, forms a CuZn5 alloy layer with 97.2% lattice matching to the (0 0 2) plane (CuZn5@Zn), thus regulating the (002) plane epitaxial deposition. As a result, the symmetric cells with CuZn5@Zn demonstrate an ultra-long cycle life of 3600 h at 1 mA cm(-2). Under extreme conditions of high current density (20 mA cm(-2)) and high zinc utilization (DODZn = 50%), stable cycling performance is maintained for 220 and 350 h, respectively. Furthermore, the CuZn5@Zn||NH4V4O10 full cell maintains a capacity of 120 mA h g(-1) even after 10,000 cycles at a high current density of 10 A g(-1). This work presents a facile and efficient strategy for constructing stable metal anode materials, with implications for the development of next-generation rechargeable batteries.
引用
收藏
页码:671 / 680
页数:10
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