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[HTML][HTML] Anion exchange membrane water electrolyzer: electrode design, lab-scaled testing system and performance evaluation
Green hydrogen produced by water electrolysis is one of the most promising technologies to
realize the efficient utilization of intermittent renewable energy and the decarbonizing future …
realize the efficient utilization of intermittent renewable energy and the decarbonizing future …
Key components and design strategy for a proton exchange membrane water electrolyzer
As the most attractive energy carrier, hydrogen production through electrochemical water
splitting (EWS) is promising for resolving the serious environmental problems derived from …
splitting (EWS) is promising for resolving the serious environmental problems derived from …
Essentials of high performance water electrolyzers–from catalyst layer materials to electrode engineering
Proton‐exchange membrane water electrolyzers (PEMWEs) will play a key role in future
sustainable hydrogen production for mobility, households or chemical industry. Yet, the …
sustainable hydrogen production for mobility, households or chemical industry. Yet, the …
Mass transport in PEM water electrolysers: A review
While hydrogen generation by alkaline water electrolysis is a well-established, mature
technology and currently the lowest capital cost electrolyser option; polymer electrolyte …
technology and currently the lowest capital cost electrolyser option; polymer electrolyte …
Porous transport layers for proton exchange membrane electrolysis under extreme conditions of current density, temperature, and pressure
S Stiber, H Balzer, A Wierhake… - Advanced Energy …, 2021 - Wiley Online Library
Hydrogen produced via water electrolysis powered by renewable electricity or green H2
offers new decarbonization pathways. Proton exchange membrane water electrolysis …
offers new decarbonization pathways. Proton exchange membrane water electrolysis …
Hierarchically structured porous transport layers for polymer electrolyte water electrolysis
The high operational and capital costs of polymer electrolyte water electrolysis technology
originate from limited catalyst utilization and the use of thick membrane electrolytes. This is …
originate from limited catalyst utilization and the use of thick membrane electrolytes. This is …
The porous transport layer in proton exchange membrane water electrolysis: perspectives on a complex component
The porous transport layer (PTL) is an essential component of the polymer electrolyte
membrane water electrolyzer (PEMWE), responsible for a better utilization of the catalyst …
membrane water electrolyzer (PEMWE), responsible for a better utilization of the catalyst …
Polymer electrolyte water electrolysis: correlating performance and porous transport layer structure: Part II. Electrochemical performance analysis
In the first paper of this series the bulk and surface structural properties of Ti-fiber based
porous transport layers (PTL) were characterized and described. In this second part the …
porous transport layers (PTL) were characterized and described. In this second part the …
Effects of the transport/catalyst layer interface and catalyst loading on mass and charge transport phenomena in polymer electrolyte membrane water electrolysis …
The properties of porous transport layers (PTL) in electrolysis devices and their effects on
cell performance have been studied extensively in recent literature. This paper provides a …
cell performance have been studied extensively in recent literature. This paper provides a …
Electrolyzer durability at low catalyst loading and with dynamic operation
Membrane electrode assembly durability is explored for polymer electrolyte membrane
electrolyzers, focusing on catalyst (iridium, Ir) degradation at low loading and dynamic …
electrolyzers, focusing on catalyst (iridium, Ir) degradation at low loading and dynamic …