Topological feature could prove useful for encoding information in electron spins. Rice physicists have confirmed the topological origins of magnons, magnetic features they discovered three…
Understanding how electrons move in 2-D layered material systems could lead to advances in quantum computing and communication. Scientists studying two different configurations of bilayer…
2D kagome materials are a platform for tuneable electron-electron interactions ‘Star-like’ atomic-scale kagome geometry ‘switches on’ magnetism in a 2D organic material A 2D nanomaterial…
Researchers describe how electrons move through two-dimensional layered graphene, findings that could lead to advances in the design of future quantum computing platforms. New research…
Ultrafast laser spectroscopy allows observing the motion of atoms at their natural time scales in the range of femtoseconds, the millionth of a billionth of…
A one-atom-thin 2D magnet developed by Berkeley Lab and UC Berkeley could advance new applications in computing and electronics. The development of an ultrathin magnet that operates…
New findings might help inform the design of more powerful MRI machines or robust quantum computers. MIT physicists have observed signs of a rare type…
Material could be used in future quantum computing applications. An international team of physicists led by the University of Minnesota has discovered that a unique…
A Spatiotemporal Symphony of Light Using an ultrafast transmission electron microscope, researchers from the Technion – Israel Institute of Technology have, for the first time,…
Known as “two-dimensional electrolytes,” these smart materials could potentially be used in many things from drug delivery to energy storage. Intelligent materials, the latest revolution…
Work on three graphene-based devices may yield new insights into superconductivity. MIT researchers and colleagues have turned a “magic” material composed of atomically thin layers…
2D material resists cracking and description by century-old theory of fracture mechanics. It’s official: Hexagonal boron nitride (h-BN) is the iron man of 2D materials,…
SMART findings allow a new way to control light emitting from materials. Researchers from the Low Energy Electronic Systems (LEES) interdisciplinary research group at the…
Carbon exists in various forms. In addition to diamond and graphite, there are recently discovered forms with astonishing properties. For example graphene, with a thickness…
Atomically thin materials are a promising alternative to silicon-based transistors; now researchers can connect them more efficiently to other chip elements. Moore’s Law, the famous…
Researchers have used a technique similar to MRI to follow the movement of individual atoms in real time as they cluster together to form two-dimensional…
Researchers detected non-negligible interactions between technologically intriguing 2D materials and the substrates that physically support them. Atomically thin layers are of great technological interest because…
Researchers at ETH Zurich have succeeded in turning specially prepared graphene flakes either into insulators or into superconductors by applying an electric voltage. This technique…