利用谷胱甘肽保护铜纳米团簇实现锌的高可逆性电沉积，用于水性锌-离子电池

IF 6.1 1区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Inorganic Chemistry Frontiers Pub Date : 2024-11-27 DOI:10.1039/d4qi02605e

Lu-Fan Wang, Xiao-Yuan Wang, Shu Xu, Zhou Wu, Guoqiang Sun, Xiao-Fei Liu, Ren-Wu Huang, Shuang-Quan Zang

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引用次数: 0

摘要

锌阳极中出现的枝晶生长和副反应阻碍了水性锌离子电池的开发和实际应用。在此，我们首次展示了使用配体保护的铜纳米团簇作为锌镀层/剥离介质来构建无枝晶的锌阳极。外围配体上丰富的极性官能团（-COOH、-NH2 和 -CO-NH-）可调节溶解结构并调节 Zn2+ 的传输，而亲锌的铜核则可作为成核剂引导 Zn 的均匀成核和电镀。利用这种双功能 CuNCs，非对称电池在超过 1000 次循环中实现了 99.4% 的库仑效率，而对称电池则表现出较低的电压滞后性和超过 400 小时的卓越循环性，放电深度高达 40%。这些发现可能有助于在原子水平上设计多功能介质。

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Highly Reversible Zinc Electrodeposition Enabled by Glutathione-Protected Copper Nanoclusters for Aqueous Zn-Ion Batteries

Dendrite growth and side reactions occurring in Zn anodes hinder the development and practical application of aqueous Zn-ion batteries. Herein, for the first time, we demonstrated the use of ligand-protected Cu nanoclusters as Zn plating/stripping mediators to construct dendrite-free Zn anodes. The abundant polar functional groups (–COOH, –NH2, and –CO–NH–) on the peripheral ligands modulated the solvation structure and regulated the transport of Zn2+, whereas the zincophilic Cu cores functioned as nucleating agents to guide the uniform nucleation and plating of Zn. Using such bifunctional CuNCs, the asymmetric cell achieves a Coulombic efficiency of 99.4% for over 1000 cycles, and the symmetric cell exhibits low voltage hysteresis and superior cycling over 400 h with a high depth of discharge of 40%. These findings may contribute to the design of multifunctional mediators at the atomic level.

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