A recent study published in Nano Letters sheds new light on the intricate behavior of electron transport in bilayer graphene, highlighting the critical role of edge states and a unique nonlocal ...

Scientists at The University of Manchester's National Graphene Institute have demonstrated that electrons in ultra-clean ...

With strong bactericidal properties, graphene has the potential to become a game changer in the fight against antibiotic-resistant bacteria. So far there have been no efficient ways to control these ...

Scientists reveal how graphene toothbrushes eliminates bacteria without harming human cells, revolutionizing daily hygiene.

Schematic illustration showing the difference between focused and defocused laser irradiation and the design of the LSIG method for reducing sheet resistance in laser-induced graphene. Graphene has ...

New research from KAIST has clarified how graphene oxide's antibacterial properties work, revealing it selectively attacks harmful bacteria by targeting a specific lipid found in their membranes. This ...

Researchers at The University of Manchester's National Graphene Institute have shown that electrons in ultra-clean graphene ...

With the increasing waste heat production by today’s electronics in ever smaller spaces, drawing this heat away quickly enough to prevent thermal throttling or damage is a major concern. This is where ...

Defying conventional scientific knowledge about electrical conductivity, the addition of a common carbon compound to copper to make electrical wires results in significant performance enhancements, ...

Illustration of how the razor-sharp flakes of graphene line up together on a surface and can kill bacteria without harming healthy human cells. The bactericidal graphene surfaces developed at Chalmers ...