This Review provides an overview of the emerging concepts of catalysts, membranes, and
membrane electrode assemblies (MEAs) for water electrolyzers with anion-exchange …

Alkaline water splitting, especially anion-exchange-membrane based water electrolysis, is
an attractive way for low-cost and scalable H2 production. Green electricity-driven alkaline …

The overpotential of alkaline water electrolysis at high current density is significantly
increased by the high energy barriers of high intermediate (H* and OH*) and slow …

The active-site density, intrinsic activity, and durability of Ni-based catalysts are critical to
their application in industrial alkaline water electrolysis. This work develops a kind of …

Water‐splitting electrolyzers that can convert electricity into storable hydrogen are a
fascinating and scalable energy conversion technology for the utilization of renewable …

Designing affordable and efficient bifunctional electrocatalysts for the hydrogen evolution
reaction (HER) and oxygen evolution reaction (OER) has remained a long‐lasting target for …

Develo** sustainable and renewable energy sources along with efficient energy storage
and conversion technologies is vital to address environmental and energy challenges …

For industrial high-purity hydrogen production, it is essential to develop low-cost, earth-
abundant, highly-efficient, and stable electrocatalysts which deliver high current density (j) at …

Electrochemical energy storage and conversion through hydrogen is essential for a clean
and sustainable energy system. Highly efficient hydrogen electrocatalysts play a key role in …

Develo** highly active nonprecious electrocatalysts with superior durability for both the
hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) is crucial to …