Scientists have taken the first step toward developing antiferromagnetic technology. They detected a liquid-crystal phase that may change the game for spintronic devices.

The best candidate for next-generation magnetic devices -- technology that can power, store, sense or transport information - ...

Scientists at Oak Ridge National Laboratory have found that applying an electric field to a specialized ceramic can nearly ...

Magnetic invisibility sounds simple in theory. Place the right materials around an object and magnetic fields flow around it as if nothing were there.

In recent years, van der Waals crystals have evolved from scientific curiosities into a versatile platform for exploring novel quantum phases and unconventional nanophotonic phenomena. Their layered ...

Researchers from Germany, Japan and India, led by scientists from DESY and the Universities of Kiel and Hamburg, have found a way to collectively make molecules on a flat surface rotate by exposing ...

A new room-temperature quantum device developed at Stanford uses twisted light and advanced materials to link photons and ...

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 ...

A team led by researchers at Tohoku University have taken the first step toward developing antiferromagnetic technology. They detected a ...

Scientists have discovered that electrons in solar materials can be launched across molecules almost as fast as nature allows, driven by tiny atomic vibrations.

AlScN can be lattice-matched to GaN and integrated into blue light-emitting diodes as the electron blocking layer ...

For decades now, the science and engineering community has put in relentless effort into both discovering nanomaterials and understanding their fundamental ...