In the latest hydrogen fuel cell news, researchers at Monash University have come up with a truly innovative ultra-thin ...
PEM fuel cells will see uptake in a range of mobility and stationary applications, with specific technology trends for the individual fuel cell components. This article introduces these constituent ...
Proton exchange membrane fuel cells (PEMFCs) represent a cornerstone technology for sustainable energy conversion, offering high power density, rapid startup, and zero-emission operation. However, ...
Morning Overview on MSN
An iron-based catalyst just produced clean hydrogen without a trace of platinum — cutting the cost of the reaction that powers every hydrogen fuel cell
A team of researchers has demonstrated that a single-atom iron catalyst can match platinum’s performance in the oxygen ...
The AEM water electrolyser cell works with a newly developed membrane electrode (MEA) that is directly coated with a nickel-based anode catalyst. Its molecular mode of action has been elucidated, and ...
Proton exchange membrane fuel cells (PEMFCs) convert hydrogen and oxygen into electricity with water as the only by-product, offering a zero-emission alternative to combustion engines. Despite their ...
Morning Overview on MSN
An iron-based catalyst just made clean hydrogen with zero platinum — cutting the cost of the reaction inside every fuel cell on the planet
Platinum costs roughly $31,000 per kilogram. Iron costs less than a dollar. That price gap has haunted the hydrogen fuel-cell ...
Want to learn more on this subject? Markus Schilling is a PhD student at the chair of technical electrochemistry under the supervision of Prof Hubert A Gasteiger at the Technische Universität München.
When we chat about green hydrogen production, everyone's eyes usually dart to the renewable electricity that powers ...
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