Chemists at the National University of Singapore (NUS) have developed a methodology to enable coupling reactions for 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 ...

Polyisocyanides are polymers distinguished by their helical structures, where the helix's winding direction (right- or left-handed) can be controlled through catalysts designed for synthesizing chiral ...

Across the world, a considerable amount of the plastics and synthetic fibers used daily are produced from polymerization processes. Thus, there is a significant demand for process optimization and ...

The creation of plastics from polymers is now an old industry. So, there are many methods, sub-methods, and specific synthetic variations now used by academics and industry scientists to create ...

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, ...

Protein polymerization underpins major biological processes, such as cell division and intracellular transport, while undesired assembly can lead to protein aggregates that are associated with, for ...

Although we've heard a lot about how 3D-printing concrete homes speeds up the construction process, you still have to wait up ...

Researchers at Oregon State University have developed a quick-setting, environmentally friendly alternative to concrete they ...