A new electrochemical method turns carbon dioxide and alcohols into valuable chemicals on both sides of a single cell, using a sulfur-modified catalyst that improves efficiency and selectivity.

Previously, chemists tried to reduce CO 2 formation by coating iron catalysts with hydrophobic materials or graphene layers, ...

A novel Mg-Al hydrotalcite catalyst achieves 98.79 % biodiesel yield in 15 minutes, revolutionizing green fuel production ...

Chemists at the National University of Singapore (NUS) have found a new use for deoxyribonucleic acid (DNA), not just as ...

IISc researchers recycle fishing nets into 3D printing filament by introducing a chemical cross-linker (melamine) into the ...

A computational method accurately predicts the optimal ligand for a photochemical palladium catalyst, enabling new radical reactions of alkyl ketones. Ketones are common components in many organic ...

AI in Computer-Aided Synthesis Planning Market reached USD 2.13 bn in 2024 and is expected to grow rapidly to USD 68.06 bn by ...

Copernic Catalysts, Inc. announced that, in collaboration with Schrödinger, Inc., the companies have surpassed the final technical milestone for their jointly-developed ammonia synthesis catalyst, ...

See more Chemistry in Pictures. Craig Bettenhausen Craig Bettenhausen is a business reporter at C&EN. Craig’s coverage of the ...

Porous crystalline networks, exemplified by Metal–Organic Frameworks (MOFs) have revolutionized the landscape of materials chemistry and have become a focal ...