The electroreduction of carbon dioxide (CO 2) into valuable chemicals and fuels typically operates under alkaline or neutral conditions, but the carbonation side reaction causes carbon loss. In ...
The electroreduction of carbon dioxide (CO 2) into valuable chemicals and fuels typically operates under alkaline or neutral conditions, but the carbonation side reaction causes carbon loss. Besides, ...
Researchers at Jilin University have pioneered a tunable catalyst that significantly improves selective conversion of CO 2 into target fuels. Published in Science China Chemistry, the study ...
For a carbon-neutral bioeconomy, processes are needed that can efficiently capture CO 2 and convert it into valuable products. Formic acid, or more specifically its salt, formate, is considered a ...
The electrocatalytic oxidation of formic acid has emerged as a pivotal reaction for direct formic acid fuel cells and sustainable energy conversion systems. Mechanistically, the process bifurcates ...