Carbon Nano-tubes & Graphene (WJEC GCSE Chemistry: Combined Science)

Revision Note

Alexandra Brennan

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Carbon Nano-tubes & Graphene

Graphene

  • Graphene consists of a single layer of graphite which is a sheet of carbon atoms covalently bonded forming a continuous hexagonal layer
  • It is essentially a 2D molecule since it is only one atom thick
  • It has very unusual properties make it useful in fabricating composite materials and in electronics

Diagram to show the structure and bonding in graphene

The structure of graphene, downloadable IB Chemistry revision notes

Graphene is a single layer of graphite 

Linking the Bonding & Properties 

  • Graphene is extremely strong but also amazingly light
    • It would take an elephant with excellent balance to break through a sheet of graphene
    • It is very strong due to its unbroken pattern and the strong covalent bonds between the carbon atoms
    • Even when patches of graphene are stitched together, it remains the strongest material out there
  • Graphene conducts heat and electricity
    • It has delocalised electrons 
    • These are free to move and carry a charge

Carbon Nanotubes 

  • Graphene can also be rolled into a cylinder to produce an interesting type of fullerene called a nanotube
  • These have high tensile strength but a low density and are resistant to breaking or stretching
  • As in graphene, nanotubes can also conduct electricity which makes them useful in composites and specialised materials, electronics and nanotechnology
  • Carbon nano-tubes have a much smaller scale structure than carbon fibres and are not what is used in the manufacture of bikes and tennis rackets

Diagram to show the structure of a carbon nanotube

structure-of-nanotubes-igcse-and-gcse-chemistry-revision-notes

A nanotube can be produced from a rolled sheet of graphene

Linking the Bonding & Properties 

  • Carbon nanotubes conduct electricity
    • Each carbon is bonded to three other carbon atoms leaving one electron per atom unbonded 
    • These delocalised electrons are free to move and carry a charge
  • Carbon nanotubes have a high melting point
    • There are strong covalent bonds between carbon atoms
    • These need lots of energy to overcome
  • Carbon nanotubes have a low density and are very strong 
    • Each carbon atom is joined together by strong covalent bonds 
    • These require lots of force to break 

Examiner Tip

Common exam questions ask you to explain the properties of different substances so it is worth spending the time learning these!

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Alexandra Brennan

Author: Alexandra Brennan

Expertise: Chemistry

Alex studied Biochemistry at Newcastle University before embarking upon a career in teaching. With nearly 10 years of teaching experience, Alex has had several roles including Chemistry/Science Teacher, Head of Science and Examiner for AQA and Edexcel. Alex’s passion for creating engaging content that enables students to succeed in exams drove her to pursue a career outside of the classroom at SME.