For more than half a century, materials scientists have struggled with how to simulate the complexity of polymer materials.

By electrochemically introducing phosphonate ester groups into conductive polymer films, researchers at Science Tokyo have addressed a fundamental trade-off between electronic charge transport and ion ...

Scientists at Hiroshima University developed brand-new helical supramolecular polymer chains from chirally twisted macrocyclic monomers. Helical structures are ubiquitous across biology, from the ...

The performance and safety profile of lithium batteries has improved immensely over the years, but new technologies are constantly demanding even better performance and increased safety demands due to ...

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 ...

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

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

The world is filled with a myriad of sounds and vibrations -- the gentle tones of a piano drifting down the hall, the relaxing purr of a cat laying on your chest, the annoying hum of the office lights ...

Scanning Electron Microscopy (SEM) has become a vital tool in materials science, allowing researchers and engineers to explore the intricate structure and surface features of various materials, ...

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