Towards 2D Spin-Logic Memory Technology Using Magnetic Graphene
In spintronics, the magnetic moment of electrons (spin) is used to transfer and manipulate information. An ultra-compact 2D spin-logic circuitry could be built from 2D…
In spintronics, the magnetic moment of electrons (spin) is used to transfer and manipulate information. An ultra-compact 2D spin-logic circuitry could be built from 2D…
2D materials combine, becoming polarized and giving rise to photovoltaic effect. For the first time, researchers have discovered a way to obtain polarity and photovoltaic…
It’s an example of how surprising properties can spontaneously emerge in complex materials – a phenomenon scientists hope to harness for novel technologies. Creating a…
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…
2D materials have triggered a boom in materials research. Now it turns out that exciting effects occur when two such layered materials are stacked and…
A 2D Perspective: Stacking Materials to Realize a Low Power Consuming Future Scientists have designed a 2D material-based multi-stacked structure comprising tungsten disulfide (WS2) layer…
Columbia researchers engineer the first technique to exploit the tunable symmetry of 2D materials for nonlinear optical applications, including laser, optical spectroscopy, imaging, and metrology…
Scientists at the University of Tsukuba and the Institute of High Pressure Physics fabricate a novel molybdenum disulfide transistor and create an image of the…
Cutting-edge microscope helps reveal ways to control the electronic properties of atomically thin materials. In recent years, engineers have found ways to modify the properties…
UC Riverside-led study observed unexpected insulating phases by placing electrons on stacked monolayers of 2D semiconductors. Materials that have excess electrons are typically conductors. However,…
Nanomaterial developments could lead to computers and phones running thousands of times faster. The tiniest microchips yet can be made from graphene and other 2D-materials,…
By combining ferromagnets and two rotated layers of graphene, researchers open up a new platform for strongly interacting states using graphene’s unique quantum degree of…
Nature study: research team from the University of Bonn gains insights into novel quantum phenomena. They are as thin as a hair, only a hundred…
Researchers from the National Graphene Institute at the University of Manchester and the University of Pennsylvania identify ultra-fast gas flows through atomic-scale apertures in 2D…
A new nanomaterial helps obtain hydrogen from a liquid energy carrier, in a key step toward a stable and clean fuel source. Hydrogen is a…
Technique is 10,000 faster than previous methods, and can create active nanostructured gates directly below two-dimensional materials such as graphene. It has long been a…
New research, published in Nature, has measured highly sought-after Majorana quantum states. A team of theoretical and experimental physicists have designed a new ultra-thin material…