The Fuel Cell Technologies Office (FCTO) will present a series of three live webinars to describe the capabilities in each of
the water splitting pathways being covered by FCTO's HydroGEN consortium.
Not exact matches
Metal - free efficient photocatalyst for stable visible
water splitting via a two - electron
pathway
The HydroGEN Advanced
Water Splitting Materials Consortium (HydroGEN) will utilize the expertise and capabilities of the national laboratories to accelerate the development of commercially viable
pathways for hydrogen production from renewable energy sources.
Dinh will give a presentation titled «An Overview of HydroGEN, a DOE Energy Materials Network, Aimed at Accelerating the R&D of Advanced
Water Splitting Materials (AWSM)» during the Renewable Hydrogen
Pathways session on Wednesday, November 8.
Researchers from Virginia Tech developed an in vitro artificial enzymatic
pathway that can produce hydrogen at extremely high rates by
splitting water energized by carbohydrates (e.g., starch).