At the interface between the semimetal (bismuth) and the 2D semiconductor (MoS2), there is no energy barrier for the electron to go through, leading to…
Posts published in “2D Materials”
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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…
Using ultraviolet light, researchers probed the electronic characteristics of a 2D semiconductor (purple) as the number of substrate layers (green) increased. In the data maps,…
2D sheets intersect and twist on top of each other, modifying the energy landscape of the materials. Credit: Ventsislav Valev Physicists at the University of…
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…
Tungsten selenide (WSe2) and black phosphorus (BP) do not exhibit polarized electronic behavior until combined such that their structures overlap. Credit: ©2021 Ideue et al.…
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.…
Rotation of electron spins in superconductors of atomic-scale thickness may be used to make qubits for quantum computing. Superconductivity is known to be easily destroyed…
Two layers of a 2D-material are stacked, which influences the properties of the material. Credit: Erik Zumalt, Lukas Linhart 2D materials have triggered a boom…
Two slabs of boron nitride crystals are dynamically twisted with respect to each other. At certain angles, the incoming laser light (orange beam) can be…
Spintronic computing artistic concept illustration. Scientists at the University of Tsukuba and the Institute of High Pressure Physics fabricate a novel molybdenum disulfide transistor and…
These images of “islands” of gold atoms deposited on a layer of two-dimensional molybdenum sulfide were produced by two different modes, using a new scanning…
Formation of moiré pattern by two honeycomb lattices. Credit: Microwave Nano-Electronics Lab, UC Riverside UC Riverside-led study observed unexpected insulating phases by placing electrons on…
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…
The system: A crystal lattice made of light traps atoms in several bilayer sheets. Tomographic images show the (spin-) densities in a single layer. They…
Researchers identify ultra-fast gas flows through atomic-scale apertures in 2D membrane and validate a century-old equation of fluid dynamics. Credit: N Hassani & M N-Amal,…
An illustration of the 2D boron nitride substrate with imperfections that host tiny nickel clusters. The catalyst aids the chemical reaction that removes hydrogen from…
Illustration of an electron-beam “sketching” a quantum dot at the LaAlO3/SrTiO3 interface. Credit: Muqing Yu Technique is 10,000 faster than previous methods, and can create…
Majorana Zero Energy Modes are found at the edge of 2D topological superconductors. Credit: Alex Tokarev, Ella Maru Studio Aalto University New research, published in…
Why do certain materials emit electrons with a very specific energy? This has been a mystery for decades — scientists at TU Wien have found…