This artistic rendering shows the nanoscale spin spirals that enable the emergence of a multiferroic state in 2D material NiI2. Credit: Ella Maru Studio Discovery…
Posts published in “2D Materials”
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Using ultrathin materials to reduce the size of superconducting qubits may pave the way for personal-sized quantum devices. Like the transistors in a classical computer,…
Researchers from KTH Royal Institute of Technology and Stanford University have fabricated a material for computer components that enable the commercial viability of computers that…
The design of new materials allows for either improved efficiency of known applications or totally new applications that were out of reach with the previously…
Defects in the lattice structure of hexagonal boron nitride can be detected with photoluminescence. Researchers shine a light with a color or energy on the…
Artistic visualization of interband collective excitations in twisted bilayer graphene. Credit: ICFO/Matteo Ceccanti An international team of researchers reports in Nature Physics on how light…
Unplanned discovery could lead to future pivotal discoveries in batteries, fuel cells, devices for converting heat to electricity and more. Scientists normally conduct their research…
SUTD researchers show how a newly discovered family of two-dimensional (2D) semiconductors are more energy-efficient thanks to the presence of a built-in atomic protection layer.…
Understanding how electrons move in 2-D layered material systems could lead to advances in quantum computingPerforming computation using quantum-mechanical phenomena such as superposition and entanglement.”>quantum…
New collaborative research describes how electrons move through two different configurations of bilayer graphene, the atomically-thin form of carbon. These results provide insights that researchers…
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…
Credit: Marilyn Sargent/Berkeley Lab A one-atom-thin 2D magnet developed by Berkeley Lab and UC Berkeley could advance new applications in computing and electronics. The development…
A team of physicists led by the University of Minnesota has discovered that the unique superconducting metal Niobium diselenide (NbSe2) is more resilient when used…
Research team, L-R: Yuval Adiv, Yaniv Kurman, Professor Ido Kaminer, Raphael Dahan and Dr. Kangpeng Wang. Credit: Technion – Israel Institute of Technology A Spatiotemporal…
Artistic representation of the nanoscopic structure of one of the new MIT nanodevices. Two twisted sheets of graphene are represented by the metallic-blue carbon atoms…
A scanning electron microscope image shows branched cracks in a single crystal of 2D hexagonal boron nitride (h-BN). Experiments and computational modelling by Rice University…
SMART researchers have found that phenomena related to the formation of moiré superlattices observed in two-dimensional systems can be translated to tune optical properties of…
Structure of the new carbon network. The upper part shows schematically the linking of the carbon atoms, forming squares, hexagons, and octagons. The lower part…