Graphene has potential applications in the energy sector, including energy storage, solar panels, fuel cells, batteries, and thermal management due to its high conductivity, transparency, surface area ...

Graphene theoretically boasts a very high energy for the penetration of atoms and ... To put this into perspective, one-atom-thick carbon is less permeable to gases than a one-kilometre-thick wall of ...

Three years after the first experimental results, graphene promises more fascinating physics and dream applications. At times when vast amounts of funding are invested in large experimental ...

Achieving the strongest, thinnest, and most conductive graphene would require manufacturers to grow a perfect single layer, ...

In principle, graphene is the ideal material for these electrodes. Consisting of 2D sheets of carbon atoms, it has now been extensively studied since its initial characterization in the early 2000s.

Electron transport in bilayer graphene exhibits a pronounced dependence on edge states and a nonlocal transport mechanism, according to a study led by Professor Gil-Ho Lee and Ph.D. candidate ...

The innovation involves a novel type of graphene nanoribbon (GNR), named Janus GNR (JGNR). The material has a unique zigzag edge, with a special ferromagnetic edge state located on one of the edges.