A recent article in Nature Nanotechnology introduced a novel approach to enhance iridium catalyst performance by coordinating iridium single atoms (Ir 1) with cobalt–iron hydroxides (Co,Fe)-OH and ...
What makes this achievement remarkable is the use of inexpensive nickel compounds for the anode catalyst, replacing costly and rare iridium. Hydrogen will play a major role in the energy system of ...
“This work is a particularly impactful characterization of iridium-based catalyst materials, even highly complex structures, which are ubiquitously used for green hydrogen production via PEMWE, as ...
Its molecular mode of action has been elucidated, and the AEM cell has proven to be almost as powerful as a conventional PEM cell with iridium catalyst. A team from the Technical University of ...
What makes this achievement remarkable is the use of inexpensive nickel compounds for the anode catalyst, replacing costly and rare iridium. Hydrogen will play a major role in the energy system of ...
What makes this achievement remarkable is the use of inexpensive nickel compounds for the anode catalyst, replacing costly and rare iridium. At BESSY II, the team was able to elucidate the ...
Iridium tetrachloride is an inorganic compound with the approximate formula IrCl4(H2O)n. It is a water-soluble dark brown amorphous solid. A well defined derivative is ammonium hexachloroiridate ((NH4 ...
This achievement is significant as it replaces costly and rare iridium with affordable nickel compounds as the anode catalyst. The findings were published in Nature Catalysis. The catalytically ...