Zn-based aqueous batteries (ZABs) are gaining widespread popularity due to their low cost
and high safety profile. However, the application of ZABs faces significant challenges, such …

Slow charging speed has been a serious constraint to the promotion of electric vehicles
(EVs), and therefore the development of advanced lithium-ion batteries (LIBs) with fast …

Manipulating the crystallographic orientation of zinc (Zn) metal to expose more (002) planes
is promising to stabilize Zn anodes in aqueous electrolytes. However, there remain …

Regulating the crystallographic texture of the zinc (Zn) metal anode is promising to promote
Zn reversibility in aqueous electrolytes, but the direct fabrication of specific textured Zn still …

Zn‐I2 batteries suffer from uncontrollable shuttle effects of polyiodine ions (I3− and I5−) at
the cathode/electrolyte interface and side reactions induced by reactive H2O at the …

The feasibility of aqueous zinc‐ion batteries for large‐scale energy storage is hindered by
the inherent challenges of Zn anode. Drawing inspiration from cellular mechanisms …

Rechargeable aqueous zinc batteries are promising in next‐generation sustainable energy
storage. However, the low zinc (Zn) metal anode reversibility and utilization in aqueous …

Aqueous zinc‐ion batteries compatible with a wide temperature range and long cycle
lifespan show great application prospects but are greatly limited by the unstable electrode …

The electric double layer (EDL) at the electrode/electrolyte interface plays a crucial role to
the electrochemical reactions of zinc ion batteries. For Zn anode, the EDL consists of H2O …

Abstract Facilitating (002)‐textured zinc growth is crucial for achieving dendrite‐free zinc
deposition in zinc‐ion batteries. Electrolyte engineering holds promise in directing zinc …