Carbon-based materials have multiple advantages including abundant sources, tunable
molecular structures, high electronic conductivity, and environmental compatibility. Rapidly …

Abstract Professor John B. Goodenough started his research on perovskite‐type oxides
working on random‐access memory with ceramic [La, M (II)] MnO3 in the Lincoln Laboratory …

One hindrance to the development of fuel cells and electrolyzers are the oxygen electrodes,
which suffer from high overpotentials and slow kinetics. Perovskite oxides have been shown …

As a promising technology, electrically rechargeable zinc–air batteries have gained
significant attention in the past few years. Herein, in this review, we focused on the main …

Perovskite oxides hold great promise as efficient electrocatalysts for various energy‐related
applications owing to their low cost, flexible structure, and high intrinsic catalytic activity …

The century‐old zinc–air (Zn–air) battery concept has been revived in the last decade due to
its high theoretical energy density, environmental‐friendliness, affordability, and safety …

Zn–air batteries (ZABs) have been considered to be promising candidates for the next
generation of energy storage devices. The sluggish kinetics of the oxygen reduction and …

The demand for high-performance, affordable, and safe energy storage solutions is growing,
driven in part by the incorporation of fluctuating electricity sources like wind turbines and …

Halide perovskites, traditionally a solar‐cell material that exhibits superior energy
conversion properties, have recently been deployed in energy storage systems such as …

Developing low-cost and high-efficiency bifunctional catalysts for both oxygen reduction
reaction (ORR) and oxygen evolution reaction (OER) is critical to expedite the widespread …