Pathway to Green Hydrogen Fuel through Novel Materials, Water & Light
Pathway to Green Hydrogen Fuel through Novel Materials, Water & Light
The FreeHydroCells project, a European multi-partner consortium led by University College Cork (UCC), has secured nearly €3.75 million in Horizon Europe research funding for over three years of pioneering research. If successful, this initiative could deliver a low-cost solar-to-chemical energy conversion system, utilising sustainable materials. Learn more at freehydrocells.eu. This project is funded by the European Union under grant agreement No. 101084261 (FreeHydroCells) and supported in part by Science Foundation Ireland (SFI) under Grant Number 12/RC/2278-P2 (AMBER).
This presentation was delivered by PhD student Vittoria Anastasi at the Summer Research Seminar, hosted by the Wind Value project.
- University of Catania Italy
- Environmental Research Institute United Kingdom
energy harvesting, sustainable renewable energy, Solar-To-Hydrogen, hydrogen production, h2020, photoelectrochemical water splitting, solar energy, EU funded, H2 gas collection, STH Efficiency, cell engineering, Solar thermal, solar simulator, sustainable energy, green hydrogen, solar photoelectrode, recombination reduction, novel materials
energy harvesting, sustainable renewable energy, Solar-To-Hydrogen, hydrogen production, h2020, photoelectrochemical water splitting, solar energy, EU funded, H2 gas collection, STH Efficiency, cell engineering, Solar thermal, solar simulator, sustainable energy, green hydrogen, solar photoelectrode, recombination reduction, novel materials
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