Researchers from NUS have pioneered a photocatalytic atom-swapping transformation that converts oxetanes into a variety of four-membered saturated cyclic molecules, which are key scaffolds in ...

Metal-organic frameworks have redefined what materials can do for society, which the 2025 Chemistry Nobel Prize highlights ...

Learn about the 2025 Nobel Chemistry Prize winners who invented materials that could save the planet. Discover how ...

What exactly are metal–organic frameworks, the materials that earned Kitagawa, Robson and Yaghi the 2025 Nobel Prize in ...

Hailed as one of the 50 most important women in science, she found ways to study rare radioactive isotopes and advanced the ...

Susumu Kitagawa, Richard Robson and Omar Yaghi pioneered the creation of metal–organic frameworks, which can capture and ...

The 1,2-oxaborine scaffold can be converted into a variety of different aromatic rings with relative ease, enabling chemists to vary molecular cores while keeping the peripheral groups mostly the same ...

Oxetanes and other four-sided molecular rings have become increasingly common in drug design thanks to their small size and ...

Versatile, porous materials with vast internal surface areas revolutionizing chemistry and various industries.

The Nobel Prize in Chemistry 2025 has been awarded to Susumu Kitagawa of Kyoto University, Richard Robson of the University of Melbourne, and Omar M. Yaghi of the University of California, Berkeley, ...

Transfer hydrogenation (TH) emerges as a frontier in hydrogenation science for utilizing safe and available non-H2 hydrogen ...

Join us as we provide analysis and commentary in the run up to the announcement of the biggest prize in chemistry ...