Physicists have long struggled to unite quantum mechanics—the theory governing tiny particles—with Einstein’s theory of gravity, which explains the behavior of stars, planets, and the structure of the universe. Researchers at TU Wien have now taken a new step...

Engineers have discovered an unexpected link between two very different realms of physics: the behavior of electrons in graphene and magnetic waves in specially engineered materials. By designing a thin magnetic film with a hexagonal pattern of holes—similar to...

Join us 11–12 March for a focused two‑day deep dive into the world of graphene - from cutting‑edge materials and devices to real‑world applications shaping the future. With an excellent agenda, Graphene Connect promises to provide an inspiring mix of topics,...

Solid-state batteries could be safer and more energy-dense than today’s lithium-ion technology, but finding materials that allow ions to move quickly through solid electrolytes has been difficult. Researchers developed a machine learning pipeline that predicts...

Electrons in solar materials can be launched across molecules almost as fast as nature allows, thanks to tiny atomic vibrations acting like a “molecular catapult.” In experiments lasting just 18 femtoseconds, researchers at the University of Cambridge observed...

A University of Cambridge research team has developed a triaxial force microsensor array using graphene-liquid metal composites, enabling robots to sense force magnitude, direction, slip, and surface roughness at scales rivaling human fingertips. This achievement...