Recent years have witnessed the renaissance of aqueous Zn-ion batteries (AZIBs).
Nevertheless, the current development of high-performance AZIBs is confronted by the rapid …

Due to its high theoretical capacity (820 mAh g− 1), low standard electrode potential (− 0.76
V vs. SHE), excellent stability in aqueous solutions, low cost, environmental friendliness and …

Nontoxic and safe aqueous Zn batteries are largely restricted by the detrimental dendrite
growth and hydrogen evolution of Zn metal anode. The (002)‐textured Zn electrodeposition …

Uncontrolled growth of Zn dendrites is the main reason for the short‐circuit failure of
aqueous Zn‐ion batteries. Using electrolyte additives to manipulate the crystal growth is one …

Aqueous zinc‐metal batteries are considered to have the potential for energy storage due to
their high safety and low cost. However, the practical applications of zinc batteries are …

Abstract Aqueous Zn ion batteries (ZIBs) are one of the most promising battery chemistries
for grid‐scale renewable energy storage. However, their application is limited by issues …

Zn anodes of aqueous Zn metal batteries face challenges from dendrite growth and side
reactions. Building Zn (002) texture mitigates the issues but does not eradicate them. Zn …

Aqueous Zn-ion devices comprising a Zn-metal anode constitute an emerging class of next-
generation energy storage devices with the growing demand for renewable energies. Over …

Aqueous zinc ion batteries (AZIBs) are receiving increasing attention for large‐scale energy
storage systems owing to their appealing features with intrinsic safety, low cost, and …

The intrinsic zinc dendrite growth aggravated by the uneven electric field at the Zn anode
surface and the water‐induced parasitic reactions have largely impeded rechargeable …