A soft polymer that hardens on impact uses force-activated molecules to rewire its own structure, achieving record stiffness and 97% force reduction.

Densely packed polymer chains can spontaneously start moving in one direction, even without being pushed, a finding that could explain DNA behavior and inspire new smart materials.

Soft synthetic and biological polymers often inherit their mechanical properties from their underlying network structures. These networks can be extremely diverse in terms of the nature of their ...

Protein stabilization is key to tackling protein aggregation, which is involved in neurodegenerative diseases. Rajan et al. explore molecular mechanisms by which zwitterionic polymers stabilize ...

Researchers at Hiroshima University’s Graduate School of Advanced Science and Engineering have created an artificial polymer that self-organizes into a controlled helix, according to a study published ...

A South Korean research team has, for the first time, uncovered the molecular-level mechanism by which trace amounts of impurities—known as dopants—can reverse charge polarity in organic polymer ...

Researchers from Tokyo Metropolitan University have applied ideas from polymer physics to illuminate the mechanism behind a key pathology in Alzheimer's disease, the formation of fibrils of tau ...

What is Polymer-Based Drug Delivery? Polymer drug delivery uses a device or a formulation that facilitates the incorporation of a therapeutic substance in the body. Polymers are used extensively for ...

Researchers in China have developed a new type of polymer solar cells that deliver ...

Scientists at the University of Cambridge have discovered that electrons can be fired across solar cell materials in just 18 ...

Scientists are developing a new generation of polymer-based materials that could dramatically improve the removal of persistent "forever chemicals ...