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…
Posts published in “Graphene”
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Crystals of the material hexagonal boron nitride can be etched so that the pattern you draw at the top transforms into a smaller and razor-sharp…
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…
A reusable 3D functionalized reduced graphene oxide foam (3D‐FrGOF) is used as an in situ electrolytic deposition electrode to extract uranium from contaminated water. Credit:…
Research led by Kansas State University’s Suprem Das, assistant professor of industrial and manufacturing systems engineering, in collaboration with Christopher Sorensen, university distinguished professor of…
Lightweight aerogel suspended in honeycomb structure. Credit: University of Bath Extremely low-density graphene-based aerogel ‘meringue’ can improve passenger comfort and reduce noise up to 80%.…
An illustration of the graphene-based COVID-19 spike protein detection process developed at UIC. The white rectangle represents the substrate with graphene functionalized with SARS-CoV-2 antibody…
Snapshot from MD simulation of graphene on liquid Cu. Credit: Santiago Cingolani. Researchers from the Technical University of Munich have been using GCS HPC resources…
Graphene can be used for ultra-high density hard disk drives (HDD), with up to a tenfold jump compared to current technologies, researchers at the Cambridge…
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…
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…
Simplified schematic picture of the studied device, showing electrical and thermal generation of spin currents in a bilayer graphene/CrSBr heterostructure. The magnetic Co electrodes are…
Graphene Flagship researchers have developed a new measurement standard for the analysis of graphene and layered materials that could accelerate production and optimize device fabrication.…
The image shows eight electrodes around a 20-nanometer-thick magnet (white rectangle). The graphene, not show, is less than is less than 1 nanometer thick and…
Artist’s representation of the nanoscopic structure of a new ferroelectric material developed by MIT researchers and colleagues. Blue and gold dots represent the boron and…
Schematic of a valley-spiral in magnetically encapsulated twisted bilayer graphene. Credit: Jose Lado By combining ferromagnets and two rotated layers of graphene, researchers open up…
Abstract Illustration. Credit: Korea Institute of Science and Technology (KIST) A pulsed-laser repetition rate of 57.8 GHz was achieved by inserting a resonator containing graphene.…
False-colour electron microscope image of the sample, the green layers are graphene on top of the grey superconductor. The blue metal electrodes are used to…
Graphene hybrid made from metal organic frameworks (MOF) and graphenic acid make an excellent positive electrode for supercapacitors, which thus achieve an energy density similar…