Researchers pioneer electron spin control in magnetic materials, advancing spintronics and electronics using innovative techniques and Heusler compounds.
Scientists found that when they move in circles, atoms can also work wonders: When the atomic lattice in a rare-earth crystal becomes animated with a corkscrew-shaped vibration known as a chiral phonon, the crystal is transformed into a magnet.
Learn about nanobots with our deep dive into their real-world medical potential versus the sci-fi hype. Join us as we uncover what nanorobotics can really do today.
Researchers developed a new interferometric 4D-STEM modality that can provide information about local structural deformations within layers, twist direction and magnitude between layers, and interlayer distances for few-layered 2D materials.
Researchers develop cell membrane-coated magnetic nanoparticles that leverage abilities to both target circulating tumor cells and evade white blood cells, enabling isolation of scarce circulating tumor cells from blood with 10x higher purity.
