Designing a proton-exchange membrane that will balance the efficiency, durability and safety requirements for hydrogen ...

The companies said they will shorten the R&D-to-commercialization timeline, rapidly advancing low-iridium catalysts from ...

PEM electrolyzers, for instance ... effective materials in the production of green hydrogen to be used in water electrolysis." The study is published in the journal Advanced Energy Materials.

In that respect, Proton Exchange Membrane Water Electrolysis (PEM-WE) is currently considered a key technology. Both electrodes are coated with special electrocatalysts to accelerate the desired ...

“PEM water electrolysis excels at generating high-purity hydrogen, even when using variable power sources, such as solar or wind energy,” says Norio Yuki, director and deputy CEO of Toho ...

Heraeus Precious Metals has recently entered two partnerships aimed at advancing green hydrogen production via ...

Clean chemistry company Mattiq has entered into a strategic partnership with precious metals company Heraeus Precious Metals ...

Mattiq, a Chicago, Illinois-headquartered clean chemistry company, on Jan. 30 announced a strategic partnership with global metals company Heraeus ...

In their collaboration, Mattiq and Heraeus Precious Metals will shorten the traditional R&D-to-commercialization timeline, ...

This light not only heats the water, but also reaches a photovoltaic panel which provides energy to run the PEM electrolysis cell, which is what actually splits the water into hydrogen and oxygen.

Iridium is indispensable for the green energy transition, as PEM water electrolysis, one of the most promising technologies for producing zero-carbon (green) hydrogen, depends on its availability.