法拉第效率
材料科学
阳极
相间
化学工程
钝化
水溶液
沉积(地质)
锌
电极
枝晶(数学)
电化学
自行车
电场
电池(电)
离子
氢
作者
Mengyue Liu,Hao Tian,Zhuang Jiang,Yong Gao,Zhenwen Yu,Ruize Xu,Kun Chang
摘要
ABSTRACT Achieving long‐term stable zinc anodes at high currents and capacities remains a great challenge for practical aqueous alkaline zinc‐nickel batteries. Herein, we construct a coordination‐gradient interphase by integrating a carboxyl‐functional carbon shell with spatially graded Zn 2 + binding affinity. The resulting interphase exhibits a stratified distribution of oxygen‐containing groups, establishing a directional pathway for Zn 2 + transport. This gradient structure suppresses hydrogen evolution and passivation by preserving ZnO lattice integrity, while simultaneously regulating the electric field and Zn 2 + flux to promote uniform deposition and inhibit dendrite growth under demanding operating conditions. As a result, the coordinated‐gradient Zn anode enables stable cycling for over 900 h in a Zn||Zn symmetric cell at 5 mA cm − 2 with negligible polarization, which outperforms most previously reported modified Zn anodes in alkaline electrolytes. The proposed gradient interphase design is scalable, and a high‐performance Zn‐Ni full battery with high mass loading (50 mg cm − 2 ) is also demonstrated, delivering an areal capacity of 17 mAh cm − 2 at 80 mA cm − 2 and retaining nearly full capacity over 9000 cycles with a Coulombic efficiency of 92%.
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