The research progress of HEMs as the catalysts for electrochemical water electrolysis in terms of theoretical research, synthesis, and application. The specific properties of HEMs have profound ...

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 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 ...

The above studies prove that the −SO 3 H groups have been successfully grafted to commercial Ir/IrO x by using the strong bonding strategy proposed in this work. The OER catalytic performances of ...

However, the intrinsic slow kinetics of the anodic oxygen evolution reaction severely results in low hydrogen production efficiency of the cathode. In addition, during the process of water ...

$${{\rm{F}}}{{{\rm{e}}}}^{3+}+{{{\rm{Ni}}}}^{2+}+{{\rm{O}}}{{{\rm{H}}}}^{-}+{{{\rm{S}}}{{{\rm{O}}}}_{4}}^{2-}\mathop{\longrightarrow}\limits^{\Delta} {{\rm{NiFe ...