Carbon dioxide can be electrocatalytically reduced to useful resources using conventional catalysts such as gold or lead supported on conductive carbon. However, the high pH environment near ...

A novel catalysis scheme enables chemical reactions that were previously virtually impossible. The method is also environmentally friendly and does not require rare and precious metals. The ...

Sometimes conformity is a good thing. Particularly when it comes to stereochemistry. While stereocenters arise in mirror-image enantiomer pairs when left to their own devices, the enantiomers can have ...

Chemical processes that were previously nearly impossible have been made feasible using a revolutionary catalysis method. The process created at the University of Bonn is eco-friendly and does not ...

The new catalyst, based on in-liquid plasma-treated titanium dioxide with silver nanoparticles, offers enhanced CO2 conversion. Conventional catalysts degrade in high pH environments, but the new ...

Clean energy plans, including the U.S. Infrastructure Investment Act’s “Clean Hydrogen Road Map,” are counting on hydrogen as a fuel of the future. But current hydrogen separation technology is still ...

A chemically stable titanium dioxide electrode decorated with silver nanoparticles shows promise for converting carbon dioxide reduction into useful resources Additionally, the electrocatalytic ...

A novel catalysis scheme enables chemical reactions that were previously virtually impossible. The method developed at the University of Bonn is also environmentally friendly and does not require rare ...