NTNU Team Hydrogen
NTNU Team Hydrogen is a team of world experts on Hydrogen Energy. The team consists of researchers from different disciplines, departments and faculties across NTNU that works within the Hydrogen area. One of the main tasks of the team is to develop new research programs and projects both nationally and internationally with academia, research organisations and industry, and to coordinate Hydrogen activities within NTNU. We are also educating and training research leaders, innovating, providing solutions, and stimulating the industry.
News from the team
Heat to H2: Using Waste Heat for Hydrogen Production through Reverse Electrodialysis
Members of the NTNU Hydrogen Team have published the article Heat to H2: Using Waste Heat for Hydrogen Production through Reverse Electrodialysis in the journal Energies.
Application granted for H2 research infrastructure
NTNU and SINTEF were granted funding for the infrastructure application on materials research for transporting hydrogen (Smart-H). Afrooz Barnoush and Filippo Berto from NTNU Team Hydrogen are participating in the Smart-H project.
A pitch on hydrogen (video)
Equation of state and force fields for Feynman–Hibbs-corrected Mie fluids. I. Application to pure helium, neon, hydrogen, and deuterium
Members of the NTNU Hydrogen Team have just published an article Equation of state and force fields for Feynman–Hibbs-corrected Mie fluids. I. Application to pure helium, neon, hydrogen, and deuterium published in The Journal of Chemical Physics. The aim of the research is to provide the first accurate thermodynamic description of quantum mixed refrigerants to improve the hydrogen liquefaction process.
?ivind Wilhelmsen have wrote a short popular scientific description of the article. Also read ChemistryWorlds story about Hydrogen storage gets real where the research is mentioned.
Optimising surface d charge of AuPd nanoalloy catalysts for enhanced catalytic activity
Member of the NTNU Hydrogen Team, De Chen, co-authored on the article Optimising surface d charge of AuPd nanoalloy catalysts for enhanced catalytic activity in Nature Communications Journal.