Publication | Closed Access
Synthesis of Carbon Tubule Nanocoils in High Yield Using Iron-Coated Indium Tin Oxide as Catalyst
133
Citations
11
References
2000
Year
EngineeringNanometer-scale SizeCarbon NanotechnologyCarbon CoilsNanoheterogeneous CatalysisChemistryNanostructured MaterialsChemical EngineeringNanoscale ChemistryCarbon-based MaterialCarbon Tubule NanocoilsNanostructure SynthesisCarbon CoilNanoscale ScienceCarbon-based FilmsCarbon NanotubesMaterials ScienceCatalytic ApplicationCatalytic MaterialNanotechnologyCarbon MaterialsCatalysisNanomaterials ManufacturingPorous CarbonNanomaterialsNanotubesNanostructures
Carbon coils were produced by catalytic thermal CVD using iron‑coated indium tin oxide as catalyst and acetylene as the carbon source. The method yields over 95 % of carbon nanocoils at 700 °C, generating multi‑tubule structures with diameters from tens to hundreds of nanometers, and requires iron for growth while indium, tin, oxygen, or their alloys are essential for coil formation.
We have synthesized carbon coils of nanometer-scale size by catalytic thermal chemical vapor deposition. The catalyst used is iron-coated indium tin oxide and the carbon source is acetylene. The yield of carbon coils is over 95% at a growth temperature of 700°C. The carbon coil usually consists of two or more carbon tubules and each of them grows with its own diameter and pitch. The external diameters of the coils are from several tens to several hundreds of nanometers. It is found that iron plays an important role in the growth of carbon nanotubes, while indium, tin, oxygen, and/or their alloys are necessary in the formation of the coils.
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