Sustainable zinc–air batteries (ZABs) are considered promising energy storage devices
owing to their inherent safety, high energy density, wide operating temperature window …

In order to facilitate electrochemical oxygen reactions in electrically rechargeable zinc–air
batteries (ZABs), there is a need to develop innovative approaches for efficient oxygen …

Rechargeable zinc–air batteries afford great potential toward next‐generation sustainable
energy storage. Nevertheless, the oxygen redox reactions at the air cathode are highly …

The establishment of abundant three‐phase interfaces with accelerated mass transfer in air
cathodes is highly desirable for the development of high‐rate and long‐cycling …

Zinc-air batteries (ZABs) hold immense promise for energy storage due to their potential
advantages over existing technologies in terms of electrochemical performance, cost, and …

With the rapid economic growth and the deepening awareness of sustainable development,
the demand for green and efficient energy storage equipment increases. As a promising …

Rational construction of carbon‐based materials with high‐efficiency bifunctionality and low
cost as the substitute of precious metal catalyst shows a highly practical value for …

Al-air batteries are regarded as the potential energy conversion systems due to the ultra-
high theoretical specific capacity of 2980 mAh/g and specific energy of 8100 mWh/g for Al …

Herein, a new fibrous conjugated microporous polymer bearing phenazine species (PNZ‐
CMP) is reported as a universal and ultrastable electrode to host various mono‐and multi …

Rational construction of active components has been the biggest challenge in preparing
efficient bifunctional oxygen electrocatalysts. Herein, electrospinning and chemical vapor …