Carbon Nanotubes
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Transcript of Carbon Nanotubes
What are Carbon nanotubes.•Carbon nanotubes (CNTs) are allotropes
of carbon. These cylindrical carbon molecules have interesting properties that make them potentially useful in
many applications in nanotechnology, electronics, optics and other fields of materials science, as well as potential
uses in architectural fields. They exhibit extraordinary strength and unique
electrical properties, and are efficient conductors of heat. Their final usage,
however, may be limited by their potential toxicity.
How CNTs are made• Arc discharge
– CNTs Can be found in the carbon soot of graphite electrodes during an arc discharge involving high current. This process yields CNTs with lengths up to 50 microns.
• Laser Ablation– In the laser ablation process, a pulsed laser vaporizes a
graphite target in a high-temperature reactor while an inert gas is inserted into the reactor. Nanotubes develop on the cooler surfaces of the reactor as the vaporized carbon condenses.
• Other methods where CNTs are created: - Chemical Vapor Decomposition - Natural, incidental, and controlled flame environments
Strength Properties
• Carbon nanotubes have the strongest tensile strength of any material known.
• It also has the highest modulus of elasticity.
Electrical Properties• If the nanotube structure is armchair
then the electrical properties are metallic
• If the nanotube structure is chiral then the electrical properties can be either semiconducting with a very small band gap, otherwise the nanotube is a moderate semiconductor
• In theory, metallic nanotubes can carry an electrical current density of 4×109 A/cm2 which is more than 1,000 times greater than metals such as copper
Thermal Properties• All nanotubes are expected to be very good thermal
conductors along the tube, but good insulators laterally to the tube axis.
• It is predicted that carbon nanotubes will be able to transmit up to 6000 watts per meter per Kelvin at room temperature; compare this to copper, a metal well-known for its good thermal conductivity, which transmits 385 watts per meter per K.
• The temperature stability of carbon nanotubes is estimated to be up to 2800oC in vacuum and about 750oC in air.
Defects
• Defects can occur in the form of atomic vacancies. High levels of such defects can lower the tensile strength by up to 85%.
• Because of the very small structure of CNTs, the tensile strength of the tube is dependent on its weakest segment in a similar manner to a chain, where the strength of the weakest link becomes the maximum strength of the chain.
One-Dimensional Transport
• Due to their nanoscale dimensions, electron transport in carbon nanotubes will take place through quantum effects and will only propagate along the axis of the tube. Because of this special transport property, carbon nanotubes are frequently referred to as “one-dimensional.”