A controlled/“living” click polymerization method developed by researchers at Institute of Science Tokyo and Nagoya University enables precise chain-growth of AB-type monomers—traditionally limited to ...

Proceedings of the Royal Society of London. Series A, Mathematical and Physical Sciences, Vol. 192, No. 1030 (Feb. 18, 1948), pp. 329-339 (11 pages) A simple method for investigating the relation ...

Researchers in Sweden have unveiled a way to create high-performance electronic electrodes using nothing more than visible light and specially designed water-soluble monomers. This gentle, ...

Many materials in the modern world--from the plastics that dominate it to the electronic chips that drive it--are constructed of polymers. Given their ubiquity and the evolving requirements of our ...

The current use of metal catalysts to develop polymers leads to suboptimal quality polymers that contain metallic impurities and involves a reaction process that is not environment friendly. Now, ...

Researchers continue to explore ways to improve the performance of solid polymer electrolytes (SPEs) for lithium metal batteries (LMBs), aiming to develop more efficient and sustainable energy storage ...

The project has now succeeded in creating a method where polymerization can be driven by visible light, thanks to specially designed monomers developed by the researchers. This visible light ...

The Center for Sustainable Photoredox Catalysis (SuPRCat), Fort Collins, Colorado 80523, United States Department of Chemistry, Colorado State University, 200 W. Lake St., Fort Collins, Colorado 80523 ...

Polymers are organic materials that are characterized by unique properties, such as tensile strength and viscoelastic behavior under deformation. As a result, these materials are used extensively in ...