The striking success of the theory of electrolytic dissociation based on mass action law blinded scientific workers for more than twenty years to the necessity of invoking a new principle for the ...

A low-cost, tin-based catalyst can selectively convert carbon dioxide to three widely produced chemicals—ethanol, acetic acid and formic acid. Lurking within the emissions from many industrial ...

The pioneering findings of this study highlight the potential of this innovative material to revolutionize sustainable catalysis. More information: Shotaro Tada et al, Novel Lewis Acid‐Base ...

May 21, 2024 — Scientists report a family of tin-based catalysts that efficiently converts CO2 into ethanol, acetic acid and formic acid. These liquid hydrocarbons are among the most produced ...

Upon addition of hydrogen peroxide to Rochelle's salt (sodium potassium tartrate), the hydrogen peroxide decomposes and tartaric acid is oxidized. This reaction proceeds very slowly at room ...

After synthesizing and experimenting on various Ru-based catalysts on different supports, the team found that catalysts with both metal and acid sites exhibit dramatically improved conversion ...

Heterogeneous catalysts speed up chemical reactions by ... The second type involves small molecules where the acid-base pair exists within the same molecular structure, making it easier to adjust ...