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Graphene and fullerenes

and are forms of carbon. Their structures are different from those of and , which are also forms of carbon.

Graphene

Graphene is a single layer of graphite. The strong between the carbon atoms mean that graphene:

  • has a very high
  • is very strong

Like graphite, graphene conducts electricity well because it has that are free to move across its surface.

These make graphene useful in electronics and for making .

Fullerenes

Fullerenes are of carbon atoms with hollow shapes. Their structures are based on hexagonal rings of carbon atoms joined by covalent bonds. Some fullerenes include rings with five or seven carbon atoms. Two examples of fullerenes are and .

Buckminsterfullerene

Buckminsterfullerene was the first fullerene to be discovered. Its molecules are made up of 60 carbon atoms joined together by strong covalent bonds. Molecules of C60 are spherical.

There are weak between molecules of buckminsterfullerene. These need little energy to overcome, so buckminsterfullerene is slippery and has a low melting point.

Covalent structure of buckminsterfullerene
Figure caption,
Buckminsterfullerene has sixty carbon atoms joined by covalent bonds

Nanotubes

A nanotube is like a layer of graphene, rolled into a cylinder. The length of a nanotube is very long compared to its width, so nanotubes have high length to diameter ratios.

Nanotubes have high , so they are strong in and resist being stretched. Like graphene, nanotubes are strong and conduct electricity because they have delocalised electrons.

These properties make nanotubes useful for nanotechnology, electronics and specialised materials.

Covalent structure of a nanotube
Figure caption,
Nanotubes can be several millimetres long but only a few nanometres wide