Record-breaking AEM water electrolyser surpasses benchmarks by 500,000 times
We have successfully developed an optimised electrolyser that operates steady and stably for an impressive 800 hours at an ultrahigh current density of 10 A/cm²
We have successfully developed an optimised electrolyser that operates steady and stably for an impressive 800 hours at an ultrahigh current density of 10 A/cm²
Discover who’s who in the ANEMEL team. Ariana Serban is a PhD student at the École Polytechnique Fédérale de Lausanne (EPFL), in Switzerland, who develops non-PGM catalysts for hydrogen evolution reaction.
Our researcher Suhas Nuggehalli Sampathkumar (EPFL) helps us to understand a recently published paper about the importance of simulated membrane electrode assemblies (MEA) to better understand the efficiency of water electrolysis.
EU identifies non-PGM electrodes for alkaline water electrolysis as an innovation that responds to current market trends and needs, highlighting ANEMEL partners the University of Galway, Ireland, and Industrie de Nora, Italy, as “Key Innovators”.
ANEMEL brings together a team of experts with a broad range of backgrounds. Altogether, our consortium will leverage its expertise to develop an electrolyser powered by green energy sources and based on non-critical raw materials.
Get a great overview of the different types of electrolysers – the devices used to split water into hydrogen and oxygen. Some are closer to market than others; ANEMEL in particular is exploring anion exchange technologies to reduce the reliance on scarce materials and make green hydrogen cheaper.