As climate change accelerates, finding clean alternatives to fossil fuels is more urgent than
ever. Therefore, green hydrogen has been introduced as a means of high-intensity energy …

Green hydrogen is typically produced by water electrolysis. In this process, water is split into
hydrogen and oxygen by an electric current. Different technologies exist to produce …

For high rate water electrolysers, minimising Ohmic losses through efficient gas bubble
evacuation away from the active electrode is as important as minimising activation losses by …

Hydrogen energy is a truly renewable and clean energy source. Alkaline water electrolysis
(AWE) is the most promising technology for green hydrogen production currently. In the AWE …

Alkaline water electrolysis is one of the most promising technologies for green hydrogen
production. Here, we synthesized a series of alkanolamine-modified zirconia particles by a …

Composite separators comprising ceramic filler and thermoplastic polymer are widely used
in alkaline electrolyzers due to their stability in harsh conditions. The ceramic filler should …

Traditionally, alkaline water electrolysis (AWE) uses diaphragms to separate anode and
cathode and is operated with 5–7 M KOH feed solutions. The ban of asbestos diaphragms …

Increasing the operating temperature of water electrolysis is an effective way to improve its
performance. When the available region of the operating current density is extended, the …

The performance of a proton exchange membrane electrolyzer is greatly affected by the
interfacial contact between the porous transport layer and the catalyst layer. Microporous …

Green hydrogen plays a pivotal role in the decarbonizing process. Hydrogen production by
alkaline water electrolysis (AWE) is the most promising way for large-scale hydrogen …