Discover how polymer upcycling combines reactive extrusion and FTIR analysis to create high-performance recycled plastics.

Antimony-nitrogen interactions yield materials with enhanced stability and the ability to self-heal in aqueous environments ...

Conjugated polymers are crucial to the cells' development and design. "Now that we've unlocked the potential for chiral conjugated polymers, we can apply that biological property to solar cells and ...

The rapid global transition toward sustainable and renewable energy systems is driving an urgent need for advanced materials that combine high efficiency, ...

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 ...

2D polymers are a novel class of nanomaterials that combine the structural features of polymers with the two-dimensional geometry of graphene and other 2D materials. These polymers consist of ...

Explore the collaboration between Farsoon and ALM, expanding high-performance materials for innovative applications in ...

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 ...

At a potluck, you ate the best chocolate chip cookie—golden-brown, thick and chewy. Unfortunately, you don't know who made ...

Lightweight as a window cling and replicable as a newspaper, organic solar cells are emerging as a viable solution for the nation's growing energy demand. Researchers at the University of Illinois ...