A new method called vdW squeezing enables the creation of stable, atomically thin 2D metals, opening doors to advanced ...

Their crystalline structure allows them to be 'worked' to ... they are able to transmit light over great distances. What is Graphene? videoWhat is Graphene? Mark Miodownik describes the discovery ...

Researchers demonstrate orbital hybridization in graphene-based quantum dots, revealing how anisotropic confinement influences electronic states at the atomic scale.

The main obstacles concern large-scale manufacturing and the challenge of patterning graphene at the atomic level ... produce a two-dimensional honeycomb structure (Fig. 2).

However, unlike graphene, which has a crystalline hexagonal lattice, MAC consists of both crystalline and amorphous regions, forming a composite structure ... material at the atomic scale.

The resulting multilayer stacks (laminates) have a structure similar to nacre ... to a billionth of a metre. The graphene filters have an astonishingly accurate mesh that allows them to distinguish ...

The image shows an atomic-scale visualization of monolayer amorphous ... and electron beam irradiation of graphene. The unique structure combines both three-fold and four-fold coordinated carbon atoms ...

New research shows graphene can filter common salts from water to make it ... Realisation of scalable membranes with uniform pore size down to atomic scale is a significant step forward and will open ...

Since the groundbreaking discovery of graphene in 2004 ... Academy of Sciences have developed a convenient, universal, atomic-level manufacturing technique—called vdW squeezing—for the ...