Self-Assembled
Film for Aligning Carbon Nanotubes
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Scanning electron microscope (SEM) images of aligned carbon nanotubes. (a) Nanotubes grow outwards perpendicularly from all surfaces of a thin-film-like mesoporous silica substrate. (b) This high magnification SEM image shows aligned and separated nanotubes. (c) This carbon nanotube pattern was formed by using a transmission electron microscope grid with a square opening as a shadow mask. (d) A network of aligned carbon nanotubes is formed. |
Carbon nanotubeslined
up and sticking up like brush bristleshave been grown in the laboratory
of Sheng Dai and postdoctoral scientist Zhengwei Pan, both in ORNL’s Chemical
Sciences Division. Dai and Pan have produced a self-assembled sol-gel
silica film doped with iron nanoparticles. This “self-assembled ordered
mesoporous film” grows in such a way that it has evenly distributed pores
into which iron nanoparticles settle. “These iron particles nestled in
the film are the seeds that allow carbon nanotubes to grow,” Dai says.
The film is then heated in a furnace along with acetylene gas in a process called chemical vapor deposition. This carbon-bearing gas then decomposes, causing the carbon to deposit on the film. The nanotubes sprout up from the iron nanoparticles, which are catalysts that spur the growth of aligned carbon nanotubes.
“We also have made nickel nanowires using self-assembled ordered mesoporous films formed from silica,” Dai says, adding that this research was done in collaboration with ORNL postdoctoral scientist Zongtao Zhang. “These mesoporous films have parallel channels, so they are good templates for making wires. We dope the film with nickel and tiny wires form along the channels.”
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