Chemours announces participation in Versogen’s development of clean hydrogen technology – Chemical Engineering

By Mary Site Bailey |

The Chemours Business (Wilmington, Del.) announced its participation in a fundraising for Wilmington, Delaware-centered Versogen Inc., a leader in establishing anion exchange membrane (AEM) technologies for use in hydrogen generation. Started by University of Delaware professor Yushan Yan, Versogen’s AEM technologies gives a dependable and very affordable way to develop green hydrogen at scale.

Environmentally friendly hydrogen is the most promising alternative gasoline to reduce greenhouse fuel emissions in transportation and other industries that primarily count on fossil fuels. When developed through h2o electrolysis and driven by renewable strength, huge quantities of inexperienced hydrogen can be manufactured when creating zero emissions. This approach is important to the thoroughly clean power transition and conference international decarbonization objectives.

“Chemours is passionate about the prospective of the hydrogen economic climate and our role in it, and we’re continually searching for opportunities to speed up innovation and new technologies for clear electricity,” explained Denise Dignam, President, Highly developed General performance Resources for Chemours. “We’re psyched to take part in Versogen to help ability their ongoing scale-up and to have the opportunity to collaborate with a start off-up in our yard to recognize greater the synergies in between AEM know-how and our Nafion™ ion trade membranes in environmentally friendly hydrogen creation.”

As element of Chemours’ commitment to modern and responsible chemistry that allows the sustainable goods of the future, we are collaborating throughout the worth chain to produce advanced methods that resolve some of our customers’ and partners’ largest worries. As element of those endeavours, Chemours is also a steering member of the Hydrogen Council and joined Hydrogen Europe and the European Cleanse Hydrogen Alliance to aid understand the possible of hydrogen’s job in the international vitality changeover.