Proton exchange membrane water electrolyzers (PEMWEs) are an attractive technology for
renewable energy conversion and storage. By using green electricity generated from …

Proton exchange membrane water electrolyzer (PEMWE) represents a promising
technology for the sustainable production of hydrogen, which is capable of efficiently …

As the most attractive energy carrier, hydrogen production through electrochemical water
splitting (EWS) is promising for resolving the serious environmental problems derived from …

MXenes, due to their tailorable chemistry and favourable physical properties, have great
promise in electrocatalytic energy conversion reactions. To exploit fully their enormous …

Hydrogen is a key part of the transition to more sustainable processes, not only as a
possible transportation fuel for passenger cars, buses, and heavy duty trucks, but across …

Green hydrogen, produced via water electrolysis using renewable electricity, will play a
crucial role in decarbonizing industrial and heavy‐duty transportation sectors. Anion …

Finding the optimum structure in porous transport electrodes (PTEs) for proton exchange
membrane water electrolyzer anodes is one of the central current technological challenges …

The structure of a catalyst layer (CL) significantly impacts the performance, durability, and
cost of proton exchange membrane (PEM) fuel cells and is influenced by the catalyst ink and …

Sustainable hydrogen (H2) production via water electrolysis is one of the most critical
pathways to decarbonize the chemical industry. Among various electrolyzer technologies …

Green hydrogen holds immense promise in combating climate change and building a
sustainable future. Owing to its high power‐to‐gas conversion efficiency, compact structure …