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Article Abstract
Layered vanadates are promising cathode materials for aqueous zinc-ion batteries (AZIBs). Herein, a layered potassium vanadate KVO is reported as a promising cathode material for AZIBs. It provides a high reversible capacity of 471.1 mAh g with unprecedent cycle life at a harsh low rate of 0.21 C (90.2% capacity retention after 400 cycles, running time 150 days), remarkable rate capability and decent long-term cycling stability (no capacity decay after 1700 cycles). According to a series of tests, it is revealed that the energy storage mechanism of KVO involves initial extraction of K followed by subsequent (de)intercalation of Zn/H, in which the concomitant structure change and chemical state transition of vanadium possess high reversibility. Moreover, KVO exhibits rapid Zn/H ion diffusion, favoring its rate capability. Additionally, KVO also demonstrates excellent low-temperature adaptability, which can operate stably at -30 °C. The excellent electrochemical performance, facile preparation, and low cost of KVO promise it as an attractive cathode candidate for practical AZIBs.
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