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

Water electrolysis that results in green hydrogen is the key process towards a circular
economy. The supply of sustainable electricity and availability of oxygen evolution reaction …

Interest in the low-cost production of clean hydrogen is growing. Anion exchange membrane
water electrolyzers (AEMWEs) are considered one of the most promising sustainable …

Green hydrogen production using renewables-powered, low-temperature water
electrolysers is crucial for rapidly decarbonizing the industrial sector and with it many …

NiFe-based oxo-hydroxides are highly active for the oxygen evolution reaction but require
complex synthesis and are poorly durable when deposited on foreign supports. Herein we …

As highlighted by the recent roadmaps from the European Union and the United States,
water electrolysis is the most valuable high‐intensity technology for producing green …

Anion exchange membrane water electrolyzers (AEMWEs) feature compelling advantages
over the current benchmarking proton exchange membrane water electrolyzers (PEMWEs) …

Low temperature water electrolysers such as Proton Exchange Membrane Water
Electrolysers (PEMWEs), Alkaline Water Electrolysers (AWEs), and Anion Exchange …

Hydrogen is a zero-carbon footprint energy source with high energy density that could be
the basis of future energy systems. Membrane-based water electrolysis is one means by …

Heating and hot water within buildings account for almost a quarter of global energy
consumption. Approximately 90% of this heat is derived directly from the combustion of fossil …