Physicists Harness the Atomic Motion of Graphene to Generate Clean, Limitless Power
Researchers build circuit that harnessed the atomic motion of graphene to generate an electrical current that could lead to a chip to replace batteries. A…
Researchers build circuit that harnessed the atomic motion of graphene to generate an electrical current that could lead to a chip to replace batteries. A…
A new paper published in Nature shows potential for graphene bolometers to become a game-changer for quantum technology. Physicists at Aalto University and VTT Technical…
David Indolese, a Physicist at the University of Basel, shortly explains the new SQUID – a minuscule instrument able to detect extremely faint magnetic fields….
Metal wires of carbon complete toolbox for carbon-based computers. Transistors based on carbon rather than silicon could potentially boost computers’ speed and cut their power…
‘Floating’ Graphene on a Bed of Calcium Atoms Adding calcium to graphene creates an extremely-promising superconductor, but where does the calcium go? Adding calcium to…
As with actors and opera singers, when measuring magnetic fields it helps to have range. Cornell researchers used an ultrathin graphene “sandwich” to create a…
Anti-bacterial efficiency close to 100% under 10-min sunlight and promising results in deactivation of coronaviruses. Face masks have become an important tool in fighting against…
Cooled graphene mimics effect of enormous magnetic fields that would benefit electronics. Graphene, an extremely thin two-dimensional layer of the graphite used in pencils, buckles…
Bath scientists take an important step towards understanding the interaction between layers of atomically thin materials arranged in stacks. Scientists at the University of Bath…
Demand for integrated energy storage devices is growing rapidly as people rely more and more on portable and wireless electronics, and the global need grows…
A team of physicists and chemists has produced the first porous graphene ribbons in which specific carbon atoms in the crystal lattice are replaced with…
A new symmetry-broken parent state discovered in twisted bilayer graphene. In 2018 it was discovered that two layers of graphene twisted one with respect to…
Graphene Nanoribbons might soon be much easier to produce. An international research team led by Martin Luther University Halle-Wittenberg (MLU), the University of Tennessee and…
Miniaturization has enabled so many unfathomable dreams. Shrinking down electronic circuits has allowed us to access technology like smartphones, health watches, medical probes, nano-satellites, unthinkable…
‘Twisted’ layers of 2D materials produce photonic topological transition at ‘magic’ rotation angles. Monash researchers are part of an international collaboration applying ‘twistronics’ concepts (the…
New roll-to-roll production method could enable lightweight, flexible solar devices and a new generation of display screens. A new way of making large sheets of…
A team of researchers based in Manchester, the Netherlands, Singapore, Spain, Switzerland, and the USA has published a new review on a field of computer…
For the first time, it is possible to produce crystalline layers of precious metals that consist of a single atomic layer and which are semiconducting….