The electrocatalytic splitting of water holds great promise as a sustainable and
environmentally friendly technology for hydrogen production. However, the sluggish kinetics …

Abstract Design and construction of low‐cost electrocatalysts with high catalytic activity and
long‐term stability is a challenging task in the field of catalysis. Metal‐organic frameworks …

Currently, because of the worldwide over-exploitation and consumption of fossil fuels,
energy crisis and environmental pollution are becoming more prominent. Hence, the …

As a potential energy carrier, hydrogen has surged up the priority list as part of broader
decarbonization efforts and strategies to build or acquire clean energy economies. Driven by …

Metal-organic frameworks (MOFs) have recently emerged as promising precursors to
construct efficient non-noble metal electrocatalyst for oxygen evolution reaction (OER) …

Zn-air batteries are highly attractive for direct chemical-to-electrical energy conversion and
for solving the energy crisis and environmental problems. Designing efficient oxygen …

Electrocatalysts are one of the essential components for the devices of high-efficiency green
energy storage and conversion, such as metal-air cells, fuel cells, and water electrolysis …

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 …

Abstract Secondary Zn‐air batteries (ZABs) are recognized as one of the most promising
power sources for the future with lucrative features of low cost, high energy density, eco …

Achieving energy-efficient hydrogen production via hybrid water electrolysis systems
requires not only a well-chosen alternative anodic reaction to replace the sluggish oxygen …