Twisting a monolayer and a bilayer sheet of graphene into a three-layer structure leads to…
Browsing: Graphene
Graphene is a revolutionary material made of a single layer of carbon atoms arranged in a two-dimensional honeycomb lattice. It is incredibly strong, lightweight, and an excellent conductor of electricity and heat—properties that have sparked global interest across physics, materials science, and engineering. Since its isolation in 2004, graphene has been explored for use in everything from flexible electronics and high-speed transistors to energy storage, medical devices, and advanced composites. This page features the latest research and innovations in graphene, showcasing how this remarkable material is transforming science and technology.
Physicists have created a broadband detector of terahertz radiation based on graphene. The device has…
Better detection of microwave radiation will improve thermal imaging, electronic warfare, radio communications. Army-funded research…
One feature of the COVID-19 virus that makes it so difficult to contain is that…
How can you perforate an atomic layer of material and leave the one underneath intact?…
Researchers build circuit that harnessed the atomic motion of graphene to generate an electrical current…
A new paper published in Nature shows potential for graphene bolometers to become a game-changer…
https://youtu.be/G0Rumr_vMUw David Indolese, a Physicist at the University of Basel, shortly explains the new SQUID…
Metal wires of carbon complete toolbox for carbon-based computers. Transistors based on carbon rather than…
‘Floating’ Graphene on a Bed of Calcium Atoms Adding calcium to graphene creates an extremely-promising…
As with actors and opera singers, when measuring magnetic fields it helps to have range.…
Anti-bacterial efficiency close to 100% under 10-min sunlight and promising results in deactivation of coronaviruses.…
Cooled graphene mimics effect of enormous magnetic fields that would benefit electronics. Graphene, an extremely…
Bath scientists take an important step towards understanding the interaction between layers of atomically thin…
Demand for integrated energy storage devices is growing rapidly as people rely more and more…
A team of physicists and chemists has produced the first porous graphene ribbons in which…
A new symmetry-broken parent state discovered in twisted bilayer graphene. In 2018 it was discovered…
Graphene Nanoribbons might soon be much easier to produce. An international research team led by…