Understanding polymer degradation is critical for numerous applications—to uphold and extend polymer lifespan, deliberately design materials that degrade over time for purposes like medical implants ...

Plastic pollution remains one of the most persistent environmental crises, with polystyrene (PS) among the hardest polymers ...

Bio-based polyhydroxyalkanoates (PHAs) are considered one of the most promising sustainable alternatives to fossil-derived plastics. Poly[(D-lactate)-co-(R)-3-hydroxybutyrate] (LAHB) is an ...

Biodegradable mulch films are widely promoted as a sustainable alternative to conventional agricultural plastics, yet their ...

After 29 weeks of outdoor testing, the cell using the “hybrid polymer material” saw its conversion efficiency remain above 16%. Image: Oxford PV. Research funded by the US Department of Energy (DOE) ...

Grove Biopharma, a private biotechnology company engineering protein-like polymers (PLPs) -- a new class of multifunctional biologics designed to address the most challenging intracellular drug ...

HYDRACs are a class of proteomimetic polymers designed to mark harmful proteins, like MYC and KRAS, for destruction rather than merely block their activity.

In most polymer studies, nitrogen or another inert gas, such as helium or argon, is used as a purge gas to ensure that the polymer undergoes pyrolysis instead of combustion. In later stages, the purge ...

The polymer solar cell is able to retain 97% of its performance after 2,000 hours in air. By blending small-molecule acceptors into polymeric matrices, the research team improved molecular packing, ...