Nobel laureate Kostya Novoselov and his team open up graphene-based nanoelectronic devices by scanning probe lithography.

Nobel laureate Kostya Novoselov and his team open up graphene-based nanoelectronic devices by scanning probe lithography.
The remarkable properties of graphene and Teflon have been combined in a new material by the winners of this year’s Nobel Prize for Physics.
Professor Martin Pumera shares his thoughts on the accurate identification of graphene and its related structures in research.
Graphene films grown over epitaxial metal films deposited on single-crystalline substrates give unique micropits with rectangular and triangular shapes, reflecting the crystallographic orientation of the substrate.
A new battery design could overcome obstacles to making batteries with more energy storage capacity and a lower environmental footprint.
Scientists have built a microscope capable of live imaging of biological processes in such detail that moving protein complexes are visible.
Scientists convert harmful microplastics into valuable graphene using plasma, offering a promising solution for this type of pollution.
“Magic angles” in twisted bismuth bilayers could induce superconductivity at more reasonable temperatures.
Breakthrough molecular tape streamlines transfer of fragile 2D materials, opening doors for industrial-scale production.
Many biopsies may soon be avoidable with the advent of an accurate biosensor for prostate cancer that detects biomarkers in the blood.