There are few problems now that AI and machine learning cannot help overcome. Researchers from the Yokohama National University are using this modern advantage to resolve what conventional methods ...

Chemists have developed a new theoretical framework for more accurately predicting the behavior of catalysts. The study reveals how conditions such as temperature and pressure can change a catalyst's ...

In what's being hailed as an important first for chemistry, an international team of scientists has developed a new technology that can selectively rearrange atomic bonds within a single molecule. The ...

"Site-selective meta-to-fluorine functionalization was a huge challenge. We made some great progress toward that with this research and expanded the chemistry to include other substrate classes beyond ...

Kinases are crucial to many signaling pathways, and when they don't work properly, the consequences can lead to problems, including cancer, immune diseases, and neurological disorders. But there are ...

Professor Kotohiro Nomura's research group at Tokyo Metropolitan University has developed an efficient method for the exclusive depolymerization of PET (polyethylene terephthalate), PET bottles and ...

Tokyo, Japan – A research team led by Professor Kotohiro Nomura from Tokyo Metropolitan University has developed a method for the depolymerization of PET (polyethylene terephthalate) using alcohols ...

Researchers developed a polymer-based single-atom catalyst platform, enhancing gas binding and efficiency, opening doors to sustainable industrial reactions and enzyme-like catalytic precision.

In a paper published this week in Science, researchers show they are able to bypass the need for steric control and directing groups to induce cobalt-catalyzed borylation that is meta-selective. The ...