Aqueous zinc–iodine batteries (AZIBs) are highly appealing for energy requirements owing
to their safety, cost‐effectiveness, and scalability. However, the inadequate redox kinetics …

The inherently intermittent and regional nature of renewable energy generation drives the
growth of large-scale electricity energy storage systems. Aqueous Zn-based batteries …

Aqueous rechargeable zinc–iodine batteries have gained traction as a promising solution
due to their suitable theoretical energy density, cost‐effectiveness, eco‐friendliness, and …

Aqueous zinc-based batteries (AZBs) based on the conversion-type mechanism have
become a hot spot now due to their low cost, high safety, and large capacity, which provides …

Aqueous zinc‐iodine batteries (AZIBs) are very promising energy storage systems owing to
their safety, reliability, large specific capacity, and durable lifespan. However, the sluggish …

Rechargeable zinc–iodine (Zn–I2) batteries have shown immense potential for grid-scale
energy storage applications, but there remain challenges of improving efficiency and cycling …

The issues of dendrite growth, hydrogen evolution reaction, and zinc anode corrosion have
significantly hindered the widespread implementation of aqueous zinc-ion batteries (AZIBs) …

Aqueous zinc-iodine batteries have garnered increasing attention due to their low cost and
high safety. However, their practical application is impeded by sluggish iodine redox …

Aqueous Zn–iodine (Zn–I2) batteries, featuring intrinsically high-safety aqueous electrolytes
and eco-friendly cathode/anode materials, however are restricted by the shuttling of …

While neutral aqueous metal batteries, featuring cost-effectiveness and non-flammability,
hold significant potential for large-scale energy storage, their practical application is …