Key to the success of this technology is the development of a highly efficient photoelectrode system that combines perovskite solar cells with a ruthenium (Ru) catalyst on titanate nanosheets (TiNS).

A team of researchers from UNIST has developed a new technology that uses solar energy to produce ammonia and glycolic ...

e-during reactions and hydrogen poisoning-which reduces catalytic activity through the absorption to the active sites on Ru at elevated hydrogen pressure-does not occur. This delineated a path toward ...

Abstract Solar-powered electrochemical NH3 synthesis offers the benefits of sustainability and absence of CO2 emissions but suffers from a poor ...

These Ru nanoclusters react with ammonia molecules, catalyzing splitting ammonia into hydrogen and nitrogen—an essential step ...

Heterogeneous catalysis is a type of catalysis in which the catalyst occupies a different phase from the reactants and products. This may refer to the physical phase — solid, liquid or gas ...

Ruthenium (Ru) catalysts demonstrate the highest ... "This catalyst can be applied to large-scale ammonia-based hydrogen production, hydrogen power plants, hydrogen fueling stations, and maritime ...

Ruthenium (Ru) catalysts demonstrate the highest ... "This catalyst can be applied to large-scale ammonia-based hydrogen production, hydrogen power plants, hydrogen fueling stations, and maritime ...

Catalysis is the increase in the rate of a chemical reaction by the addition of a reagent — the catalyst — that is not itself consumed. The catalyst works by opening up a route between ...