Airbrushing Could Facilitate Large-Scale Manufacture of Carbon Nanofibers
Using airbrushing techniques, researchers from North Carolina State University found a potentially great new way to grow carbon nanofibers. This innovative nanomaterial is a candidate to bring a range of applications to a whole new level, including gene delivery devices, sensors, batteries. The researchers found an easy way to get usually more difficult to grow vertically aligned carbon nanofibers on several different metal substrates, opening the door for incorporating these nanofibers into many technologies by bringing the cost down.
"Because we're using an airbrush, this technique could easily be incorporated into large-scale, high-throughput manufacturing processes," says Dr. Anatoli Melechko, an adjunct associate professor of materials science and engineering at NC State and co-author of a paper describing the work. "In principle, you could cover an entire building with it."
"It's common to use nickel nanoparticles as catalysts to grow carbon nanofibers, and we were able to coat metal substrates with nickel nanoparticles using an airbrush," says Dr. Joseph Tracy, an associate professor of materials science and engineering at NC State and senior author of the paper. "Airbrushing gives us a fairly uniform coating of the substrate and it can be applied to a large area at room temperature in a short period of time."
"Growing carbon nanofibers on a metal substrate means the interface between the two materials is highly conductive, which makes the product more useful as an electrode material for use in a range of potential applications," says Mehmet Sarac, a Ph.D. student at NC State and lead author of the paper.
The paper, "Airbrushed Nickel Nanoparticles for Large-Area Growth of Vertically Aligned Carbon Nanofibers on Metal (Al, Cu, Ti) Surfaces," was published online Sept. 9 in ACS Applied Materials & Interfaces. -- North Carolina State University
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