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 …

While hydrogen generation by alkaline water electrolysis is a well-established, mature
technology and currently the lowest capital cost electrolyser option; polymer electrolyte …

Proton exchange membrane water electrolysis (PEMWE) is the most promising technology
for sustainable hydrogen production. However, it has been too expensive to compete with …

Anion-exchange membrane water electrolysis (AEMWE) suffers from low performance
compared with mainstream electrolysis techniques. Attempts at improvement have been …

This mini-review presents an overall opinion of the technological challenges associated with
each component of PEMWE at the cell level. State-of-the-art and a selection of novel …

Polymer electrolyte membrane water electrolysis (PEMWE) is the most promising and
environmentally friendly method for highly pure hydrogen production when integrated into …

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 …

Porous transport layer (PTL) plays an important role in the electron and mass transport of the
polymer electrolyte membrane (PEM) water electrolyzer. Through harsh conditions of long …

A rationalized interfacial design strategy was applied to tailor the porous transport layer
(PTL)-catalyst layer (CL) contact and the PTL bulk-phase architecture. Particularly, at the …

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