Abstract
Aqueous Zn-ion batteries (AZIBs) have received widespread attention for their advantages of environmental friendliness and high-safety, yet the development of high-performance AZIBs faces some critical issues, including exploring high-performance cathode materials with high electrical conductivity, high capacity, and stable crystal structures that may greatly affect the cycling stability and rate performance. Herein, we report a superlattice Zn3V2O7-C, which shows promising properties with high capacity and long-term stability as a conversion-type cathode material of AZIBs. The Zn||Zn3V2O7-C half-cells deliver a capacity of ∼210 mAh/g over 10, 000 charging/discharging cycles. A comprehensive investigation elucidates that the superlattice Zn3V2O7-C can provide more reactive sites, more stable structure, and more enhanced electrical conductivity for Zn2+ storage, thus benefiting the promotion of Zn2+ electrochemical and diffusion kinetics. The favorable characteristics of the designed cathode will pave an avenue for the development of promising electrodes for practical AZIBs.
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