具有亲锌性和空间陷阱的分级限域效应稳定锌基水系电池。

Hierarchical Confinement Effect with Zincophilic and Spatial Traps Stabilized Zn-Based Aqueous Battery.

作者信息

Li Hongpeng, Guo Can, Zhang Tengsheng, Xue Pan, Zhao Ruizheng, Zhou Wanhai, Li Wei, Elzatahry Ahmed, Zhao Dongyuan, Chao Dongliang

机构信息

Laboratory of Advanced Materials, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, and School of Chemistry and Materials, Fudan University, Shanghai 200433, P. R. China.

College of Mechanical Engineering, Yangzhou University, Yangzhou 225127, P. R. China.

出版信息

Nano Lett. 2022 May 25;22(10):4223-4231. doi: 10.1021/acs.nanolett.2c01235. Epub 2022 May 4.

DOI:10.1021/acs.nanolett.2c01235

PMID:35507684

Abstract

Zn-based aqueous batteries (ZABs) have been regarded as promising candidates for safe and large-scale energy storage in the "post-Li" era. However, kinetics and stability problems of Zn capture cannot be concomitantly regulated, especially at high rates and loadings. Herein, a hierarchical confinement strategy is proposed to design zincophilic and spatial traps through a host of porous Co-embedded carbon cages (denoted as CoCC). The zincophilic Co sites act as preferred nucleation sites with low nucleation barriers (within 0.5 mA h cm), and the carbon cage can further spatially confine Zn deposition (within 5.0 mA h cm). Theoretical simulations and / structural observations reveal the hierarchical spatial confinement by the elaborated all-in-one network (within 12 mA h cm). Consequently, the elaborate strategy enables a dendrite-free behavior with excellent kinetics (low overpotential of . 65 mV at a high rate of 20 mA cm) and stable cycle life (over 800 cycles), pushing forward the next-generation high-performance ZABs.

摘要

锌基水系电池（ZABs）被视为“后锂”时代安全且大规模储能的有前景候选者。然而，锌捕获的动力学和稳定性问题不能同时得到调控，尤其是在高电流密度和高负载情况下。在此，提出了一种分级限域策略，通过大量多孔钴嵌入碳笼（记为CoCC）来设计亲锌性和空间陷阱。亲锌性钴位点作为具有低成核势垒（在0.5 mA h cm内）的优先成核位点，并且碳笼可以进一步在空间上限制锌沉积（在5.0 mA h cm内）。理论模拟和结构观察揭示了由精心设计的一体化网络实现的分级空间限域（在12 mA h cm内）。因此，该精心设计的策略实现了无枝晶行为，具有优异的动力学（在20 mA cm的高电流密度下过电位低至65 mV）和稳定的循环寿命（超过800次循环），推动了下一代高性能锌基水系电池的发展。

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具有亲锌性和空间陷阱的分级限域效应稳定锌基水系电池。

Hierarchical Confinement Effect with Zincophilic and Spatial Traps Stabilized Zn-Based Aqueous Battery.

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