通过共溶剂-催化剂协同作用提高水系锌硫电池的阴极活性和阳极稳定性

Boosting Cathode Activity and Anode Stability of Zn-S Batteries in Aqueous Media Through Cosolvent-Catalyst Synergy.

作者信息

Yang Min, Yan Zichao, Xiao Jin, Xin Wenli, Zhang Lei, Peng Huiling, Geng Yaheng, Li Junwei, Wang Yunxiao, Liu Li, Zhu Zhiqiang

机构信息

State Key Laboratory of Chemo/Biosensing and Chemometrics, College of Chemistry and Chemical Engineering, Hunan University, Changsha, 410082, China.

National Base for International Science & Technology Cooperation, National Local Joint Engineering Laboratory for Key materials of New Energy Storage Battery, Hunan Province Key Laboratory of Electrochemical Energy Storage and Conversion, School of Chemistry, Xiangtan University, Xiangtan, 411105, China.

出版信息

Angew Chem Int Ed Engl. 2022 Oct 17;61(42):e202212666. doi: 10.1002/anie.202212666. Epub 2022 Sep 19.

DOI:10.1002/anie.202212666

PMID:36056534

Abstract

Aqueous Zn-S battery with high energy density represents a promising large-scale energy storage technology, but its application is severely hindered by the poor reversibility of both S cathode and Zn anode. Herein, we develop a "cocktail optimized" electrolyte containing tetraglyme (G4) and water as co-solvents and I as additive. The G4-I synergy could activate efficient polar I /I catalyst couple and shield the cathode from water, thus facilitating the conversion kinetics of S and suppressing the interfacial side reactions. Simultaneously, it could stabilize Zn anode by forming an organic-inorganic interphase upon cycling. With boosted electrodes reversibility, the Zn-S cell delivers a high capacity of 775 mAh g at 2 A g , and retains over 70 % capacity after 600 cycles at 4 A g . The advances can also be readily generalized to other ethers/water hybrid electrolytes, showing the universality of the "cocktail optimized" electrolyte design strategy.

摘要

具有高能量密度的水系锌硫电池是一种很有前景的大规模储能技术，但其应用受到硫正极和锌负极可逆性差的严重阻碍。在此，我们开发了一种“鸡尾酒优化”电解液，它含有四甘醇二甲醚（G4）和水作为共溶剂，并添加了碘。G4与碘的协同作用可以激活高效的极性I⁻/I⁻催化剂对，并保护正极免受水的影响，从而促进硫的转化动力学并抑制界面副反应。同时，它可以通过在循环过程中形成有机-无机界面来稳定锌负极。随着电极可逆性的提高，锌硫电池在2 A g⁻¹时具有775 mAh g⁻¹的高容量，在4 A g⁻¹下循环600次后仍保留超过70%的容量。这些进展也可以很容易地推广到其他醚/水混合电解液中，显示出“鸡尾酒优化”电解液设计策略的通用性。

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通过共溶剂-催化剂协同作用提高水系锌硫电池的阴极活性和阳极稳定性

Boosting Cathode Activity and Anode Stability of Zn-S Batteries in Aqueous Media Through Cosolvent-Catalyst Synergy.

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