Even though sugars are often framed as simple sources of energy, they also serve as structurally complex and functionally ...

Supramolecular polymers have emerged as an exciting class of materials over the last three decades. Their solution and bulk properties are remarkably similar to those of traditional macromolecules, ...

From household plastic packaging to the flexible frameworks that support wearable electronics, polymer materials form the ...

Scientists solve a long-standing block copolymer research conundrum through polymer chain end modifications. The study garners substantial academic attention by achieving tangible manifestations of ...

The structure of semi-crystalline polymers largely depends on how strongly their molecular chains are entangled. Following numerous experiments, researchers developed a new model to predict the ...

Polymers revolutionized materials science by enabling engineered molecular structures, leading to innovations in manufacturing, medicine, and sustainability.

The most common method for synthesizing polymers with a carbon–carbon main chain backbone is vinyl polymerization, by which many industrially important polymers, including common plastics such as ...

By electrochemically introducing phosphonate ester groups into conductive polymer films, researchers at Science Tokyo have ...

CPL-active polymeric materials are superior in terms of scalability, flexibility, 3D stacking ability, and film-forming properties. CPL can be produced directly using chiral luminescent materials, ...

A resin strategy lets 3D printed polymers organize internally during curing, creating ordered nanostructures that can later be locked into stronger materials.

Polymer bearings do not operate in isolation. Their performance depends on how bearing materials mating surfaces, housings, ...