Title: Effect of nickel, iron and cobalt on growth of aligned carbon nanotubes.
Authors: Z.P. Huang; D.Z. Wang; J.G. Wen; Sennett, M.; Gibson, H.; Ren, Z.F.
Abstract: The effect of pure nickel, iron and cobalt on growth of aligned carbon nanotubes was systematically studied by plasma-enhanced hot-filament chemical vapor deposition. It is found that the catalyst has a strong effect on the nanotube diameter, growth rate, wall thickness, morphology and microstructure. Ni yields the highest growth rate, largest diameter and thickest wall, whereas Co results in the lowest growth rate, smallest diameter and thinnest wall. The carbon nanotubes catalyzed by Ni have the best alignment and the smoothest and cleanest wall surface, whereas those from Co are covered with amorphous carbon and nanoparticles on the outer surface. The carbon nanotubes produced from Ni catalyst also exhibit a reasonably good graphitization. Therefore, Ni is considered as the most suitable catalyst for growth of aligned carbon nanotubes.
Subjects: NICKEL; IRON; COBALT
Publication: Applied Physics A: Materials Science & Processing, 2002, Vol 74, Issue 3, p387
ISSN: 0947-8396
Publication type: Academic Journal
DOI: 10.1007/s003390101186

Effect of nickel, iron and cobalt on growth of aligned carbon nanotubes.

Z.P. Huang; D.Z. Wang; J.G. Wen; Sennett, M.; Gibson, H.; Ren, Z.F.