Alkoxyamines represent a versatile class of compounds central to the advancement of controlled radical polymerisation. By undergoing a reversible homolytic cleavage of the C–ON bond, they generate a ...

Aziridine polymerisation comprises a versatile spectrum of synthetic methodologies that exploit the inherent ring strain of three‐membered nitrogen heterocycles. The field has evolved to include ...

A polymer that catalyzes its own formation in an environmentally friendly solvent-free process has been developed by an all-RIKEN team of chemists. The discovery could lead to the development of ...

Traditional polyesters are obtained via ring-opening polymerization (ROP), but significant research is currently directed at designing new biodegradable vinyl polymers with esters groups in the ...

Synthetic polymers play a crucial role in cell biology, serving as delivery vehicles for DNA and drugs, acting as fluorescent probes for cellular sensing, functioning as bioinks for tissue engineering ...

A self-propagating chemical reaction can transform a liquid monomer into a solid polymer and the interaction between the propagating front and the reaction’s natural convection leads to patterns in ...

Chemical engineers have created a new material that is stronger than steel, as light as plastic, and can be easily manufactured in large quantities. Using a novel polymerization process, MIT chemical ...

In 1964, just four years after Theodore Maiman's pioneering laser operation at the Hughes Research Laboratory in California, the James Bond film Goldfinger hinted at laser cutting, albeit for less ...

Restorative dentistry aims to bring damaged dentition back to acceptable functional and aesthetic levels (see Figure 1). Composite materials for dental fillings are replacing amalgam alloys due to ...