MIT’s Electron Spin Magic Sparks Computing Evolution
An MIT team precisely controlled an ultrathin magnet at room temperature, which could enable faster, more efficient processors and computer memories. Experimental computer memories and…
An MIT team precisely controlled an ultrathin magnet at room temperature, which could enable faster, more efficient processors and computer memories. Experimental computer memories and…
MIT’s breakthrough in integrating 2D materials into devices paves the way for next-generation devices with unique optical and electronic properties. Two-dimensional materials, which are only…
Researchers have developed a groundbreaking protective coating for indenene, a quantum material promising for ultrafast electronics, enabling its use in air without oxidation. This innovation…
The U.S. Naval Research Laboratory (NRL), working together with Kansas State University, has announced the discovery of slab waveguides made from the two-dimensional material hexagonal…
A recent study published in Nature Communications reveals that engineers from Columbia University, in collaboration with theoretical experts at the Max Planck Institute for the…
Researchers create UV-sensitive tape that can transfer 2D materials like graphene in an easier, cheaper, and less damaging way. Materials just atoms in thickness, known…
Researchers at Uppsala University, along with other collaborators, have discovered a novel 2D quantum material in a recent study published in Nature. This groundbreaking material…
Developed by EPFL researchers, the first large-scale in-memory processor using 2D semiconductor materials could substantially cut the ICT sector’s energy footprint. As information and communication…
A collaborative team of physicists in the School of Arts & Sciences have found that putting a twist on tungsten disulfide stacks illuminates new approaches…
Isolate thin flakes that can be tuned to exhibit three important properties. MIT physicists have metaphorically turned graphite, or pencil lead, into gold by isolating…
A new study reveals that superfluid 3He has a two-dimensional thermal and mechanical nature at ultra-low temperatures, which could have profound scientific implications. Researchers from…
New approach to controlling moiré flatbands adjusts band offset of two photonic lattices. When two lattices with distinct angles or periodicities come together, they conjure…
NIST researchers, studying twisted graphene layers, have unveiled a “quantum ruler” that investigates the material’s unique properties. A single-atom-thick sheet of carbon known as graphene…
Researchers have developed a new 2D material named “molybdenene.” Composed of a single atomic layer of molybdenum atoms, this material stands out due to its…
Researchers developed an analysis model using magnetic transport characteristics of molecules attached to the surface of MXene. The establishment of a property prediction and classification…
Scientists have developed a method to analyze the internal structures of vertically stacked two-dimensional materials, revealing atomic reconstructions that influence physical properties. This research holds…
The carbon material graphene has excellent electronic properties. But are they also stable enough to be useful in practice? New calculations say: Yes. New computer…
Physicists have developed a technique to precisely align supermoiré lattices, revolutionizing the potential for next-generation moiré quantum matter. National University of Singapore (NUS) physicists have…