The team led by Delphine Bouilly, a professor in UdeM's Physics Department and director of IRIC's Electronic Nanobiosensor ...

Researchers have taken atomic diffraction to a new level, revealing surprising behaviors in high-energy helium and hydrogen ...

Andre Geim and Kostya Novoselov were awarded the 2010 Nobel Prize in Physics "for groundbreaking experiments regarding the two-dimensional material graphene ... this one-atom-thick layer of ...

In the past few years you may have heard about graphene ... lead and peeled off a layer of graphite. They repeated the peeling process until the graphite was one atom thick, then dissolved ...

It can conduct electricity 100x better than silicon and heat 10x better than copper – yet it is only a single atom thick (there are about 3 million layers of graphene in 1 mm of graphite). Graphene is ...

The idea was easy enough to come up with: what if we could take a diamond and slice it into wafers just one atom thick ... now, graphene is being used to increase efficiency in single layers ...

The process involves exfoliating carbon fibers with nitric acid, which provides high yields of one-atom-thick sheets ... transformation causes layers of nanoscale graphene oxide to peel off ...

Taking inspiration from ancient techniques, researchers have forged relatively large sheets of metal that are just atoms thick ... creation of graphene, an atomically thin layer of carbon.

The process involves exfoliating carbon fibers with nitric acid, which provides high yields of one-atom-thick sheets ... transformation causes layers of nanoscale graphene oxide to peel off ...