With increasing interest in energy storage solutions, rapid progress has been made by
researchers in the area of rechargeable Zn–air batteries (R-ZABs), which offer multiple …

Oxygen reduction and evolution reactions constitute the core process of many vital energy
storage or conversion techniques. However, the kinetic sluggishness of the oxygen redox …

High-performance rechargeable zinc–air battery is highly relying on the efficient and stable
bifunctional electrocatalysts. Herein, an anti-perovskite Ni 3 FeN/VN heterostructure …

Rechargeable Zn–air batteries, which combine the key features of secondary batteries and
fuel cells, have been regarded as the next-generation energy storage/conversion device in …

Water electrolysis has attracted immense research interest, nevertheless the lack of low‐cost
but efficient bifunctional electrocatalysts for both hydrogen and oxygen evolution reactions …

Rechargeable zinc-air batteries (ZABs) have been extensively investigated owing to their
high power density and environmental friendliness. However, the slow kinetics of the oxygen …

The catalyst in the oxygen electrode is the core component of the aqueous metal–air battery,
which plays a vital role in the determination of the open circuit potential, energy density, and …

Elaborate engineering of heterostructure and composition to regulate the electroactivities
remains a pronounced challenge. Herein, a self-supported 2D/2D heterostructure monolith …

Constructing flexible free‐standing electrodes with efficient bifunctional performance is
significant for improving the performance of flexible Zinc–air batteries. Herein, a flexible free …

Durability of carbon-supported Fe single-atom catalysts has remained a critical issue for
metal-air batteries. Herein, Fe single atoms with adjacent Fe nanoclusters supported on …