Polymer capsules can store functional substances such as drugs and fragrances, making them widely used in functional ...

Two University of Iowa faculty members have been awarded funding from the National Science Foundation to develop new plastic ...

A new technique builds inorganic and polymer battery electrolytes at the same time, in the same vessel. This 'one-pot' in-situ method creates a controlled, homogeneous blend, pairing the conductivity ...

A new study led by Colorado State University Distinguished Professor Eugene Chen outlines a path to creating advanced, recyclable plastics. Published in Nature, the study describes a breakthrough ...

Osaka Metropolitan University researchers have developed a polymerization technology that enables the synthesis of degradable ...

The development of enzymatic polymerization represents a transformative advance in the synthesis of biodegradable polymers. By using highly selective biocatalysts, such as lipases and cutinases, ...

A persistent driver is the demand for lightweight materials that retain mechanical integrity under thermal and chemical stress. High-performance polymers, exemplified by polyether ether ketone (PEEK), ...

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 ...

Copper nanoparticles from beetroot extract enhance antimicrobial properties in polymer composites, offering a sustainable ...

Microporous organic polymers (MOPs) are composed entirely of covalently linked organic molecules. These materials are characterized by their high surface areas, permanent microporosity, and structural ...