Electric-field-enhanced assembly of single-walled carbon nanotubes on a solid surface

Zhuo Chen; Yanlian Yang; Zhongyun Wu; Gang Luo; Liming Xie; Zhongfan Liu; Shaojie Ma; Wanlin Guo

doi:10.1021/jp045796t

Electric-field-enhanced assembly of single-walled carbon nanotubes on a solid surface

Zhuo Chen
, Yanlian Yang
, Zhongyun Wu
, Gang Luo
, Liming Xie
, Zhongfan Liu
, Shaojie Ma
, Wanlin Guo

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

67 Scopus citations

Abstract

We report a novel electric-field-enhanced chemical assembly approach for fabricating highly aligned SWNT arrays on a solid surface with remarkably improved efficiency and packing density, which is very important for the real applications of carbon nanotube arrays. With the enhancement of the electric field, the assembling kinetics of SWNTs is remarkably speeded up to effectively decrease the assembling time, and the packing density can even exceed the saturated density of conventional assembly method by four times within only half an hour. The molecular dynamics simulation results illustrated the alignment of SWNTs with their long axes along the electric flux in solution, leading to the increase of packing density and efficiency through overcoming the steric hindrance of the "giant" carbon nanotubes.

Original language	English
Pages (from-to)	5473-5477
Number of pages	5
Journal	Journal of Physical Chemistry B
Volume	109
Issue number	12
DOIs	https://doi.org/10.1021/jp045796t
State	Published - 31 Mar 2005
Externally published	Yes

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10.1021/jp045796t

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abstract = "We report a novel electric-field-enhanced chemical assembly approach for fabricating highly aligned SWNT arrays on a solid surface with remarkably improved efficiency and packing density, which is very important for the real applications of carbon nanotube arrays. With the enhancement of the electric field, the assembling kinetics of SWNTs is remarkably speeded up to effectively decrease the assembling time, and the packing density can even exceed the saturated density of conventional assembly method by four times within only half an hour. The molecular dynamics simulation results illustrated the alignment of SWNTs with their long axes along the electric flux in solution, leading to the increase of packing density and efficiency through overcoming the steric hindrance of the {"}giant{"} carbon nanotubes.",

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T1 - Electric-field-enhanced assembly of single-walled carbon nanotubes on a solid surface

AU - Chen, Zhuo

AU - Yang, Yanlian

AU - Wu, Zhongyun

AU - Luo, Gang

AU - Xie, Liming

AU - Liu, Zhongfan

AU - Ma, Shaojie

AU - Guo, Wanlin

PY - 2005/3/31

Y1 - 2005/3/31

N2 - We report a novel electric-field-enhanced chemical assembly approach for fabricating highly aligned SWNT arrays on a solid surface with remarkably improved efficiency and packing density, which is very important for the real applications of carbon nanotube arrays. With the enhancement of the electric field, the assembling kinetics of SWNTs is remarkably speeded up to effectively decrease the assembling time, and the packing density can even exceed the saturated density of conventional assembly method by four times within only half an hour. The molecular dynamics simulation results illustrated the alignment of SWNTs with their long axes along the electric flux in solution, leading to the increase of packing density and efficiency through overcoming the steric hindrance of the "giant" carbon nanotubes.

AB - We report a novel electric-field-enhanced chemical assembly approach for fabricating highly aligned SWNT arrays on a solid surface with remarkably improved efficiency and packing density, which is very important for the real applications of carbon nanotube arrays. With the enhancement of the electric field, the assembling kinetics of SWNTs is remarkably speeded up to effectively decrease the assembling time, and the packing density can even exceed the saturated density of conventional assembly method by four times within only half an hour. The molecular dynamics simulation results illustrated the alignment of SWNTs with their long axes along the electric flux in solution, leading to the increase of packing density and efficiency through overcoming the steric hindrance of the "giant" carbon nanotubes.

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JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

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ER -

Electric-field-enhanced assembly of single-walled carbon nanotubes on a solid surface

Abstract

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