Oxygen is abundant on Earth. It's actually the third most plentiful element in the entire universe, behind hydrogen and helium. Yet the further you get from our home planet, the less oxygen there will ...

# A novel catalyst design enables simultaneous control of lattice structure and oxygen vacancies in molybdenum oxide through iron (Fe) substitution, with the study selected as a cover article in a ...

A Korea Institute of Materials Science (KIMS) research team, led by Dr. Dahee Park at the Hydrogen Energy Materials Research Center, has successfully developed a high-performance catalyst that ...

This schematic illustrates the fabrication of a single-atom catalyst by introducing a molecular anchoring agent (phytic acid) into a manganese (Mn)-nickel (Ni) layered double hydroxide (LDH) framework ...

Producing oxygen is tricky under weightless conditions in space. But the addition of a simple magnet can simplify the process of electrolysis, scientists report. The electrolysis system aboard the ...