Polymers are useful in many applications, but their mechanical properties can be greatly transformed under extreme temperatures. Knowing their performance in elevated or sub-zero temperatures is ...

Superior cost-to-performance ratio, resilience, and versatility are the core reasons behind the success of polymers in every major field. However, their inherent properties need to be modified as per ...

Polymer materials offer cost-effective solutions in engineering, yet their limitations prompt research into nano-reinforced composites for improved performance.

Polymers are fundamental to our daily lives, serving as the core components for a wide array of goods, including clothing, packaging, transportation infrastructure, construction materials, and ...

Biomedical polymers have been extensively developed for promising applications in a lot of biomedical fields, such as drug delivery, disease detection/diagnosis, biosensing, regenerative medicine, and ...

Conductive organic materials often derive their electronic properties from highly organized crystal structures. Now, researchers have developed an organic polymer that conducts electricity like a ...

A new technical paper titled “Non-equilibrium transport in polymer mixed ionic–electronic conductors at ultrahigh charge densities” was published by researchers at Cambridge University, Grenoble Alpes ...

Effect of molecular weight toward tensile properties in the present biobased polyesters, HP1. The plots of PE-18,18 (polyester-18,18, reported biobased), and ...

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 ...