A research team developed an efficient ammonia synthesis catalyst consisting of atoomically dispersed early transition metal Mn supported on the ternary hydride: LiBaH₃-Mn₁. The catalyst exhibited an ...

Applying an external magnetic field during the synthesis of CoFe2O4 electrocatalysts triples the ammonia yield during ...

Researchers from The University of Osaka created a reagent for important building-block molecules with an abundant main-group element, gallium. These early findings show that an organic gallium ...

Aluminum is the third-most abundant element in Earth’s crust, after oxygen and silicon. The metal is low cost and highly recyclable, thus making it attractive for chemists looking for more sustainable ...

Researchers have uncovered a new principle that could accelerate the development of cheaper and more efficient fuel cells by revealing how dual-atom catalysts behave during a key energy conversion ...

Researchers from the Institute of Science Tokyo opened the door for sustainable chemical innovation by revealing Ba-Si orthosilicate oxynitride-hydride as a catalyst that is free of transition metals.

Discovering new catalysts is one of the central challenges in developing clean-energy technologies such as green hydrogen production. Yet catalyst discovery has traditionally remained confined within ...

As the global transition toward carbon neutrality accelerates, "water electrolysis"—a technology that splits water ...

Atmospheric CO 2 levels have increased as a result of anthropogenic activities. This rise has contributed to global warming, ocean acidification, and the degradation of ecosystems. Addressing this ...