The biodegradable polyamide market, valued at USD 903.8 million in 2025, is projected to reach USD 3,624.7 million by 2035, ...

Multicomponent polymer synthesis represents a transformative approach in modern macromolecular engineering. By incorporating three or more reactants in a single operational step, these techniques ...

Cyclic polymers represent an innovative class of macromolecules characterised by a closed-loop structure that fundamentally alters their physical and chemical properties relative to linear ...

Synthetic polymers are used to make electronics and other technological tools, so there is a demand for research into streamlining the synthesis of polymeric materials, which Collier said can require ...

Polymer chemistry is central to the development of new technologies and substances. Materials based upon natural and synthetic organic macromolecules, polymers, and hybrid derivatives have enormous ...

A team of Chinese researchers has developed a new interfacial synthesis strategy to fabricate high-performance crystalline sp²-carbon conjugated two-dimensional (2D) polymer films using irreversible ...

Flow chemistry is revolutionizing the way we design and study macromolecules, offering a powerful, complementary approach to materials discovery—one that seamlessly integrates with modern data-driven ...

The superior strength and light weight of high-performance carbon and plastic composite materials have reduced the fuel consumption and harmful emissions of automobiles and airplanes and improved the ...

Professor Craig J. Hawker is Clarke Professor and holds the Alan and Ruth Heeger Chair of Interdisciplinary Science at UCSB where he directs the California Nanosystems Institute and the Dow Materials ...

The global n-Hexanol Market is on track for steady expansion, projected to grow from USD 421.2 million in 2025 to USD 623.5 ...

Microporous polymers offer tunable porosity, high surface areas, and chemical versatility. They can be used to powerful effect in gas storage, carbon capture, remediation and catalysis. Here's how ...