The field of polymer science has seen a transformative evolution with the development of self-healing biodegradable materials ...

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 play an increasingly important role in a variety of industrial applications, thanks to their distinct physical and chemical properties. Among their key mechanical characteristics, ...

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 ...

When designing polymers to achieve desired characteristics, such as toughness, elasticity, and resilience, you must not only consider the type of polymer, but also the mechanics of its macromolecular ...

A group lead by Prof. Yang Liu from Huazhong University of Science and Technology has created a new type of "upgraded" ...

Designing plastics that can be broken down easily after their use phase have often required a trade-off between stability and ...

Conducting polymers have emerged as a pivotal class of materials for advanced optoelectronic applications owing to their tunable molecular structure, ...

As electronic devices continue to become more compact, flexible, and wearable, materials suppliers are coming under increased pressure to surpass traditional limitations. From foldable displays and ...