Alignment of Carbon Nanotubes by Acoustic Manipulation in a Fluidic Medium

We describe a novel solution-based acoustic manipulation technique for the parallel alignment of carbon nanotubes on solid substrates. The acoustic radiation force and acoustic streaming, which are generated from the transmission of ultrasound through a fluid, facilitate the mobility of the nanotube...

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Veröffentlicht in:	Journal of physical chemistry. C 2007-11, Vol.111 (45), p.16802-16807
Hauptverfasser:	Lim, Wen Pei, Yao, Kui, Chen, Yifan
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Sprache:	eng
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creator	Lim, Wen Pei Yao, Kui Chen, Yifan
description	We describe a novel solution-based acoustic manipulation technique for the parallel alignment of carbon nanotubes on solid substrates. The acoustic radiation force and acoustic streaming, which are generated from the transmission of ultrasound through a fluid, facilitate the mobility of the nanotubes and result in their alignment on the substrate surface. A theoretical model considering various forces and resultant torques exerted on the nanotubes is first proposed for analyzing the alignment through a fluid medium.
doi_str_mv	10.1021/jp073456c
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title	Alignment of Carbon Nanotubes by Acoustic Manipulation in a Fluidic Medium
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