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In the search for sustainable cathode materials for aqueous zinc ion batteries (AZIBs), vanadium (V)‐based materials have garnered interest, primarily due to their abundance and multiple oxidation states. Among the contenders, Li3VO4 (LiVO) stands out for its affordability, high specific capacity, and elevated ionic conductivity. However, its limited electrical conductivity results in significant...
Aqueous zinc ion batteries (AZIBs) have attracted attention as a promising candidate for secondary battery energy storage due to their safety and environmental benefits. However, the vanadium‐based cathode material NH4V4O10 has the problem of structural instability. In this paper, it is found by density functional theory calculation that excessive NH4+ located in the interlayer will repel the Zn2+...
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