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The non‐metal NH4+ carrier has attracted tremendous interests for aqueous energy storage owing to its light molar mass and fast diffusion in aqueous electrolytes. Previous study inferred that NH4+ ion storage in layered VOPO4⋅2 H2O is impossible due to the removal of NH4+ from NH4VOPO4 leads to a phase change inevitably. Herein, we update this cognition and demonstrated highly reversible intercalation/de‐intercalation...
The non‐metal NH4+ carrier has attracted tremendous interests for aqueous energy storage owing to its light molar mass and fast diffusion in aqueous electrolytes. Previous study inferred that NH4+ ion storage in layered VOPO4⋅2 H2O is impossible due to the removal of NH4+ from NH4VOPO4 leads to a phase change inevitably. Herein, we update this cognition and demonstrated highly reversible intercalation/de‐intercalation...