An international research team has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles without any mass, in the same way that light travels.

Bilayer graphene, composed of two atomically thin sheets of carbon in Bernal (AB) stacking, exhibits electronic properties distinct from its monolayer counterpart. Interlayer coupling transforms the ...

Graphene's enduring appeal lies in its remarkable combination of lightness, flexibility, and strength. Now, researchers have shown that under pressure, it can briefly take on the traits of one of its ...

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The unusual stacking imparts various angle-dependent properties to tBLG. 2 Moiré patterns are generated by graphene-graphene interactions resulting from the relative layer orientations. These highly ...

Superconductors are materials that can conduct electricity with a resistance of zero. In so-called conventional superconductors, this occurs at low temperatures when electrons become bound into pairs, ...

Representation of artificial intelligence at The Science Museum, London. Image © Tim Sandle Representation of artificial intelligence at The Science Museum, London ...

Why carbon-derived graphene is attracting research attention. How graphene is transformed into a potentially useful semiconductor device. Some of the challenges overcome in making this graphene ...

(Nanowerk News) An international research team led by the University of Göttingen has demonstrated experimentally that electrons in naturally occurring double-layer graphene move like particles ...