The reversibility and sustainability of Zn anode are greatly hampered by the dendrite growth
and side reactions. Orientational deposition, which allows the assembly of Zn deposits in a …

The practical application of aqueous rechargeable batteries faces several challenges due to
the limited stability window of electrolytes and parasitic side reactions, such as corrosion …

The design of temperature-adaptive Zn–air batteries (ZABs) with long life spans and high
energy efficiencies is challenging owing to sluggish oxygen reduction reaction (ORR) …

The sustained water consumption and uncontrollable dendrite growth strongly hamper the
practical applications of rechargeable zinc (Zn) metal batteries (ZMBs). Herein, for the first …

The practical application of aqueous zinc-ion batteries (AZIBs) is greatly challenged by
rampant dendrites and pestilent side reactions resulting from an unstable Zn–electrolyte …

Dendrite‐free Zn anode is the key to avoiding battery failure, which is largely determined by
the crystal growth during the electrodeposition process. Therefore, controlling the specific …

Reconfiguration of zinc anodes efficiently mitigates dendrite formation and undesirable side
reactions, thus favoring the long‐term cycling performance of aqueous zinc ion batteries …

A stable Zn anode for mitigating dendritic growth, corrosion, and byproducts is vital for
exhibiting high-performance electrochemical properties in aqueous Zn-ion batteries. An …

Metal-organic frameworks (MOFs) have been used to stabilize the metal zinc anode, yet the
developed coating materials ignore the influence of intergranular space on deteriorating Zn …

Although one of the most promising grid-scale energy storage systems, aqueous zinc metal
batteries are plagued by water corrosion, interfacial side reactions and dendrite growth …