An example of how MI is being used in composites was announced by Toray Industries (Tokyo, Japan) in 2021 — it leveraged MI to develop a new high-performance carbon fiber-reinforced polymer (CFRP) ...

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

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

Graphene is often described as a wonder material. It is strong, electrically conductive, thermally efficient, and remarkably ...

A new high-performance resin developed by the US Naval Research Laboratory (NRL) could prove key to the use of polymers and composites in naval and aerospace applications, among others. Its resistance ...

Chemists discovered a new way to make polymers stronger: introduce a few weaker bonds into the material. Working with polyacrylate elastomers, they could increase the materials' resistance to tearing ...

One of the first applications where ATSP polymer is being considered is for a NASA-funded project involving rollable or foldable composites for deployable structures. In order to participate, late ...

Lithium-ion batteries (LIBs) power electric vehicles and electronics. With the prevalence of these set to increase, efforts have been directed towards improving the performance and longevity of LIBs.

It was at the heart of the Creps (‘Sports Expertise and Performance Resource Centre’) in Vichy, France, that the French Society of Plastics Engineers, SFIP, chose this year to hold its event dedicated ...

How do chemists keep airmen and soldiers out of the "Danger Zone?" The U.S. Military depends on state-of-the-art materials chemistry to create protective equipment and weaponized vehicles that ...