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Information @ a Glance
  • Graphene is a flat one-atom thick sheet of sp2 carbon atoms densely packed in a honeycomb crystal lattice structure. It is the basic structural element for graphite, carbon nanotubes, and fullerenes.
  • Graphene is the building block for carbon materials of all other dimensionalities and therefore the mother of all graphitic materials.
  • Graphene is a rapidly rising star on the horizon of materials science and condensed matter physics.
  • Graphene, a recently discovered form of carbon that consists of only one plain layer of atoms arranged in a honeycomb lattice, exhibits a number of intriguing properties.
  • Graphene is an allotrope of carbon, whose structure is one-atom-thick planar sheets of sp2-bonded carbon atoms that are densely packed in a honeycomb crystal lattice.
  • Graphene has moved swiftly from the research laboratory to the marketplace, driven by demand from markets where advanced materials are required. These include the aerospace, automotive, electronics, energy storage, solar, oil service, and lubricant sectors.
  • The mobility of graphene is very high which makes the material very interesting for electronic high frequency applications.
  • The distinctive electronic, thermal and mechanical properties of graphene make it a potentially disruptive technology across a raft of industries.
  • Four different techniques have been used to make graphene: Chemical vapor deposition (CVD), (mechanical) peel-of method, Epitaxial growth
    on electrically insulating surfaces such as SiC and colloidal suspensions.
  • Graphene is most easily visualized as an atomic-scale chicken wire made of carbon atoms and their bonds. The crystalline or "flake" form of graphite consists of many graphene sheets stacked together.
  • Most graphene manufacturers currently produce graphene nanoplatelets and graphene oxide and plan to scale-up production considerably over the next 18 months.
  • Multi-national companies such as IBM and Samsung are aggressively pursuing applications for graphene in electronics and optics. However, most  near-term demand is for composites and electrodes for application in the automotive, plastics, metals, aerospace and energy markets.
  • Graphene with the unique combination of bonded carbon atom structures with its myriad and complex physical properties is poised to have a big impact on the future of material sciences, electronics and nanotechnology.
  • Graphene has attracted a great deal of attention — even a Nobel Prize — because of its extremely high carrier mobility that heralds a new generation of electronic devices. Graphene is a flat one-atom thick sheet of sp2 carbon atoms densely packed in a honeycomb crystal lattice structure. It is the basic structural element for graphite, carbon nanotubes, and fullerenes.

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