Multicomponent polymer synthesis represents a transformative approach in modern macromolecular engineering. By incorporating three or more reactants in a single operational step, these techniques ...

For the first time, scientists have used ultraviolet (UV) light, a low-cost and readily available energy source, to ...

Topochemical polymer synthesis and reactions exploit the unique spatial arrangement of reactant molecules in the solid state to achieve controlled polymer formation. By pre‐organising monomers within ...

A new technique builds inorganic and polymer battery electrolytes at the same time, in the same vessel. This 'one-pot' in-situ method creates a controlled, homogeneous blend, pairing the conductivity ...

A new study led by Colorado State University Distinguished Professor Eugene Chen outlines a path to creating advanced, recyclable plastics. Published in Nature, the study describes a breakthrough ...

A persistent driver is the demand for lightweight materials that retain mechanical integrity under thermal and chemical stress. High-performance polymers, exemplified by polyether ether ketone (PEEK), ...

Researchers at the Tokyo Institute of Technology explored how flow fields generated by dynamic UV lighting can affect the photopolymerization process, demonstrating a novel and versatile method for ...

Flow chemistry is revolutionizing the way we design and study macromolecules, offering a powerful, complementary approach to materials discovery—one that seamlessly integrates with modern data-driven ...

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 ...

Surface-initiated controlled radical polymerizations have emerged as a powerful and cost-effective approach for fabricating ultrathin polymer films with diverse functionalities. During this free ...

2D polymers are a novel class of nanomaterials that combine the structural features of polymers with the two-dimensional geometry of graphene and other 2D materials. These polymers consist of ...

Degradable pacemakers and artificial neurons showcase how flexible, tissue-compatible electronics are revolutionising medicine. But translating these materials from lab bench to clinic requires solvin ...