Continuous extraction of highly pure metallic single-walled carbon nanotubes in a microfluidic channel

Dong Hun Shin; Ji Eun Kim; Hyung Cheoul Shim; Jin Won Song; Ju Hyung Yoon; Joondong Kim; Sohee Jeong; Junmo Kang; Seunghyun Baik; Chang Soo Han

doi:10.1021/nl802237m

Continuous extraction of highly pure metallic single-walled carbon nanotubes in a microfluidic channel

Dong Hun Shin, Ji Eun Kim, Hyung Cheoul Shim, Jin Won Song, Ju Hyung Yoon, Joondong Kim, Sohee Jeong, Junmo Kang, Seunghyun Baik, Chang Soo Han

Research output: Contribution to journal › Article › peer-review

72 Citations (Scopus)

Abstract

Highly pure metallic single-walled carbon nanotubes were continuously extracted from a mixture of semiconducting and metallic species using a nondestructive, scalable method. Two laminar streams were generated in an H-shaped microfluidic channel with two inlets and two outlets. The flow conditions were carefully controlled to minimize diffusive and convective transport across the boundary between the two flows. Dielectrophoretic force from the embedded electrode at the junction extracted metallic nanotubes from a stream of nanotube suspension toward the other stream of buffer solution without nanotubes. The highly pure metallic and enriched semiconducting nanotubes were obtained simultaneously at each outlet using this novel approach. Excellent selectivity was verified by electrical transport measurement, absorption, and Raman spectroscopic analysis.

Original language	English
Pages (from-to)	4380-4385
Number of pages	6
Journal	Nano Letters
Volume	8
Issue number	12
DOIs	https://doi.org/10.1021/nl802237m
Publication status	Published - 2008 Dec
Externally published	Yes

ASJC Scopus subject areas

Bioengineering
Chemistry(all)
Materials Science(all)
Condensed Matter Physics
Mechanical Engineering

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10.1021/nl802237m

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title = "Continuous extraction of highly pure metallic single-walled carbon nanotubes in a microfluidic channel",

abstract = "Highly pure metallic single-walled carbon nanotubes were continuously extracted from a mixture of semiconducting and metallic species using a nondestructive, scalable method. Two laminar streams were generated in an H-shaped microfluidic channel with two inlets and two outlets. The flow conditions were carefully controlled to minimize diffusive and convective transport across the boundary between the two flows. Dielectrophoretic force from the embedded electrode at the junction extracted metallic nanotubes from a stream of nanotube suspension toward the other stream of buffer solution without nanotubes. The highly pure metallic and enriched semiconducting nanotubes were obtained simultaneously at each outlet using this novel approach. Excellent selectivity was verified by electrical transport measurement, absorption, and Raman spectroscopic analysis.",

author = "Shin, {Dong Hun} and Kim, {Ji Eun} and Shim, {Hyung Cheoul} and Song, {Jin Won} and Yoon, {Ju Hyung} and Joondong Kim and Sohee Jeong and Junmo Kang and Seunghyun Baik and Han, {Chang Soo}",

year = "2008",

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doi = "10.1021/nl802237m",

language = "English",

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T1 - Continuous extraction of highly pure metallic single-walled carbon nanotubes in a microfluidic channel

AU - Shin, Dong Hun

AU - Kim, Ji Eun

AU - Shim, Hyung Cheoul

AU - Song, Jin Won

AU - Yoon, Ju Hyung

AU - Kim, Joondong

AU - Jeong, Sohee

AU - Kang, Junmo

AU - Baik, Seunghyun

AU - Han, Chang Soo

PY - 2008/12

Y1 - 2008/12

N2 - Highly pure metallic single-walled carbon nanotubes were continuously extracted from a mixture of semiconducting and metallic species using a nondestructive, scalable method. Two laminar streams were generated in an H-shaped microfluidic channel with two inlets and two outlets. The flow conditions were carefully controlled to minimize diffusive and convective transport across the boundary between the two flows. Dielectrophoretic force from the embedded electrode at the junction extracted metallic nanotubes from a stream of nanotube suspension toward the other stream of buffer solution without nanotubes. The highly pure metallic and enriched semiconducting nanotubes were obtained simultaneously at each outlet using this novel approach. Excellent selectivity was verified by electrical transport measurement, absorption, and Raman spectroscopic analysis.

AB - Highly pure metallic single-walled carbon nanotubes were continuously extracted from a mixture of semiconducting and metallic species using a nondestructive, scalable method. Two laminar streams were generated in an H-shaped microfluidic channel with two inlets and two outlets. The flow conditions were carefully controlled to minimize diffusive and convective transport across the boundary between the two flows. Dielectrophoretic force from the embedded electrode at the junction extracted metallic nanotubes from a stream of nanotube suspension toward the other stream of buffer solution without nanotubes. The highly pure metallic and enriched semiconducting nanotubes were obtained simultaneously at each outlet using this novel approach. Excellent selectivity was verified by electrical transport measurement, absorption, and Raman spectroscopic analysis.

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Continuous extraction of highly pure metallic single-walled carbon nanotubes in a microfluidic channel

Abstract

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