Rechargeable aqueous Zn-ion batteries (ZIBs) featuring the advantages of high safety, low
cost, environmental friendliness, and satisfactory energy density have been considered as …

Zinc (Zn) metal is the mostly studied anode materials for aqueous Zn ion batteries (ZIBs)
mainly because of its excellent energy-storage nature and resource superiority. However …

The reversibility and cyclability of aqueous zinc-ion batteries (ZIBs) are largely determined
by the stabilization of the Zn anode. Therefore, a stable anode/electrolyte interface capable …

Aqueous zinc‐ion batteries have drawn increasing attention due to the intrinsic safety, cost‐
effectiveness and high energy density. However, parasitic reactions and non‐uniform …

Routine electrolyte additives are not effective enough for uniform zinc (Zn) deposition,
because they are hard to proactively guide atomic‐level Zn deposition. Here, based on …

The practical applications of aqueous zinc (Zn) metal anodes are severely impeded by side
reaction and dendrite formations on the Zn surface. Herein, a silk fibroin-based hydrogel …

Highly reversible plating/strip** in aqueous electrolytes is one of the critical processes
determining the performance of Zn‐ion batteries, but it is severely impeded by the parasitic …

Commercialization of zinc (Zn) metal batteries is significantly hindered by the instability of
the Zn metal/electrolyte interface (s), together with concurrent parasitic reactions and …

Aqueous zinc-ion batteries are receiving considerable attention, owing to their intrinsic
safety and high theoretical capacity; however, they still suffer from a limited lifespan, caused …

In situ formation of a stable interphase layer on zinc surface is an effective solution to
suppress dendrite growth. However, the fast transport of bivalent Zn-ions within the solid …