Direct electrolytic splitting of seawater for the production of H 2 using ocean energy is a
promising technology that can help achieve carbon neutrality. However, owing to the high …

Reducing green hydrogen production costs is essential for developing a hydrogen
economy. Developing cost‐effective electrocatalysts for water electrolysis is thus of great …

Efficient bifunctional electrocatalysts for hydrogen and oxygen evolution reactions are key to
water electrolysis. Herein, we report a built‐in electric field (BEF) strategy to fabricate …

Transition metal chalcogenides have been identified as low-cost and efficient
electrocatalysts to promote the hydrogen evolution reaction in alkaline media. However, 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 …

A proton exchange membrane water electrolyzer (PEMWE) in acidic medium is a hopeful
scenario for hydrogen production using renewable energy, but the grand challenge lies in …

The development of sustainable energy conversion and storage technologies is an effective
approach to relieve the increasingly severe global energy crisis. Herein, a facile reductive …

One‐dimensional fiber architecture serves as an excellent catalyst support. The orderly
arrangement of active materials on such a fiber substrate can enhance catalytic performance …

Green hydrogen production is emerging as an essential task for future energy. Water
splitting is an effective approach to yield green hydrogen with high purity. However …

Developing efficient bifunctional electrocatalyst for overall water splitting and conversion of
biomass into value-added products at large current density is essential but challenging …