Stevens’ associate professor, Pinar Akcora, has been named the lead of the National Science Foundation (NSF) supported study “Revealing Structure-Ionic Transport Relationship in Polymer-Ionic Liquid ...

Polymer chain dynamics and phase transitions remain at the forefront of materials science and soft matter physics, elucidating how individual chain motions translate into macroscopic properties.

In the race for lighter, safer and more efficient electronics—from electric vehicles to transcontinental energy grids—one ...

A postfunctionalization strategy using blue LED light and an organophotoredox catalyst generates carbocation intermediates on polymer chains, enabling the incorporation of phosphonate esters. This ...

A controlled/“living” click polymerization method developed by researchers at Institute of Science Tokyo and Nagoya University enables precise chain-growth of AB-type monomers—traditionally limited to ...

Scientists have developed photoresponsive supramolecular polymers that can undergo both intrachain folding and interchain aggregation. The material properties of polymers are determined by the ...

Imagine a microscopic locomotive moving back and forth along a track, propelling itself without any external force. At the molecular level, this concept forms the foundation of molecular motors -- ...

Researchers create 'living' polymers that grow, degrow, and reprogram their properties after fabrication using reversible chemistry and light-activated catalysts.