A collaboration among scientists from Tohoku University, the Tokyo University of Science, and the University of Adelaide has introduced a revolutionary approach to improve the selectivity and sustainability of electrochemical CO2 reduction processes. By meticulously engineering the surfaces of copper (Cu) nanoclusters (NCs) at the atomic level, the research team has unlocked new possibilities for effective and environmentally friendly carbon conversion technologies. This significant advancement highlights the remarkable potential of Cu in sustainable chemistry.
Ligand-engineered copper nanoclusters could help combat CO₂ emissions
Cutting-edge research!
- Advertisement -
Explore more ..
Discovery of auroras on rogue planet challenges current models
These insights are pushing the boundaries of our understanding of alien atmospheres.
Inside the Milky Way’s largest star-forming cloud, seen by Webb
Sagittarius B2 is so much more active than the rest of the galactic center.
How ice breaks down iron faster than water does
Think water rusts iron? Ice does it even faster
Earth’s mantle hides nickel-rich metals never seen in nature before
Scientists uncover hidden metallic secrets deep within Earth.
TRENDING
- Advertisement -