Abstract. Proton-exchange membrane water electrolyzers (PEMWEs) will play a key role in future sustainable hydrogen production for mobility,
Alkaline water electrolyser catalyst materials for HER and OER. The development of new electrode materials is essential for enhancing AWE performance.
This study mainly contains literature that was obtained with the keywords alkaline electrolyzer (or electrolyser or electrolysis) in combination with one of the
The as-designed AELs, coupling the Ru@Cu-TM cathode with a 5-stacked SSMs anode, reach energy efficiencies (based on the hydrogen HHV and neglecting
Practical electrolysis (using a rotating electrolyser at 15 bar pressure) may consume 50 kW⋅h/kg (180 MJ/kg), and a further 15 kW⋅h (54 MJ) if the hydrogen is compressed for
Membraneless electrolyzers allow for the possibility of an impurity-tolerant device that can operate on tap water, thereby eliminating the cost of a water purification unit while enabling lower-cost materials to
In light of recent developments in water electrolyser devices with modified architectures and designs integrating concepts from Li-ion or redox flow batteries, we
This study focuses on hydrogen electrolyser papers that contain the terms "hydrogen electrolyser," "control strategy," and "sustainable energy." The graphic
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Hence, there is an increasing interest to make the production and utilization of this green hydrogen more scalable and versatile process. Water electrolysis is a key