Researchers develop a nickel catalyst that converts carbon dioxide to carbon monoxide with 99% selectivity by precisely ...

What makes this achievement remarkable is the use of inexpensive nickel compounds for the anode catalyst, replacing costly and rare iridium.

Researchers discover a way to potentially reduce CO2 emissions and decrease the need for chlorine to produce ethylene oxide — ...

Electrocatalysis is a key technology for sustainable energy, and understanding how catalysts work is crucial for improving ...

Scientists at Kazan Federal University, in collaboration with two Russian companies, have developed a new catalyst based on iron, nickel, cobalt, ...

Experiments conducted in an alkaline water electrolysis cell showed that the nickel-iron-aluminum (Ni-Fe-Al) catalyst improved performance by approximately 50% compared to existing catalysts.

The arrangement of small molecules—known as ligands—around transition metal atoms affects how the metal atoms behave. This is important because transition metals are used as catalysts in the synthesis ...