McGill University engineers have developed ultra-thin materials that can move, fold, and reshape themselves, ...

Graphene has drawn attention as a scientific curiosity owing to its record conductivities, strength and thermal properties.

Movable structures can be manufactured from flexible, tear-resistant graphene oxide films, which simultaneously provide ...

Graphene has long been hailed as a "wonder material." It is incredibly strong, highly conductive and almost impossibly thin—just one atom thick. These properties make it a promising candidate for next ...

Researchers at KTH Royal Institute of Technology claim to have significantly advanced sustainable nanomaterial synthesis by creating a scalable and repeatable process for creating graphene oxide (GO) ...

Graphene’s unique properties continue to drive breakthroughs from quantum computing to sustainable concrete. As research accelerates, its role in next-generation technologies is becoming clearer, and ...

Vertical graphene microstructures break the thickness-performance tradeoff in thermoacoustic speakers, enabling flexible ...

Schematic of the modified graphene oxide nanoparticle (right) illustrates the integration of a chemotherapy drug camptothecin (orange circle), a fluorescent dye (pink star), and bacterial coating of ...