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Boundary layer chemical vapor synthesis of self-organized radial filled-carbon-nanotube structures

Authors :
Gavin Mountjoy
Filippo S. Boi
Mark Baxendale
Source :
Carbon. 64:516-526
Publication Year :
2013
Publisher :
Elsevier BV, 2013.

Abstract

We report a new chemical vapor synthesis method that exploits random fluctuations in the viscous boundary layer between a laminar vapor flow and a surface to yield a not previously observed product: radial ferromagnetically filled-carbon-nanotube structures departing from a central particle. The filling of the nanotube capillary is continuous over a scale much greater than that which can be achieved by conventional CVD. This is a simple method which does not require ultra-fine control of process parameters or highly-engineered reactor components in which a single, self-organized, ordered product is formed in randomly fluctuating vapor in the boundary layer by vapor-, liquid-, solid-phase self-organization. These fluctuations create the thermodynamic conditions for formation of the central particle in the vapor which in turn defines the spherically symmetric diffusion gradient that initiates the radial growth. The subsequent radial growth is driven by the supply of vapor feedstock by local diffusion gradients created by endothermic graphitic carbon formation at the vapor-facing tips of the individual nanotubes and is halted by contact with the surface. The radial structures are the dominant product and the reaction conditions are self-sustaining. We argue that the method has potential for scalable production of metal-carbon nanostructures with other unusual morphologies.

Details

ISSN :
00086223
Volume :
64
Database :
OpenAIRE
Journal :
Carbon
Accession number :
edsair.doi...........0d869c8ead974bb8fd5fae0de372eecc
Full Text :
https://doi.org/10.1016/j.carbon.2013.08.001