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Comparison of the stability of multiwalled carbon nanotube dispersions in water

Comparison of the stability of multiwalled carbon nanotube dispersions in water
Comparison of the stability of multiwalled carbon nanotube dispersions in water
Continuous real-time monitoring of the nanotube concentration in aqueous solution using UV-Vis spectroscopy allows quantitative comparison of the stability of different types of nanotube dispersions. Systematic investigation of the effects of nanotube length and functionalisation for thin multiwalled carbon nanotubes (MWNT) has revealed that shorter MWNT form more stable dispersions than longer nanotubes of the same diameter. MWNT shortened to an average length of approximately 1 µm form stable dispersions in water with concentrations up to 0.013 mg ml–1 in the absence of surfactants or solubilising functional groups. The introduction of carboxylic or thiol groups on the surface of shortened nanotubes further increases the stability of MWNT dispersions (up to 0.24 mg ml–1). The introduction of surfactant or surface charge on MWNT has contrasting effects on functionalised and non-functionalised nanotubes, destabilising and stabilising their dispersions, respectively.
purification, acid, chemistry, swnts, double-wall, oxidation
1463-9076
5490-5496
Marsh, Dan H.
d5a1ef32-05bf-4849-b3af-1c1c79193463
Rance, Graham A.
d0e90224-85ce-49cc-9280-67ec7ea727df
Zaka, Mujtaba H.
f27b016c-0dc6-4495-bc20-1a947bcf498e
Whitby, Richard J.
45632236-ab00-4ad0-a02d-6209043e818b
Khlobystov, Andrei N.
27b2c834-ce18-4106-9cbe-17e2968551a4
Marsh, Dan H.
d5a1ef32-05bf-4849-b3af-1c1c79193463
Rance, Graham A.
d0e90224-85ce-49cc-9280-67ec7ea727df
Zaka, Mujtaba H.
f27b016c-0dc6-4495-bc20-1a947bcf498e
Whitby, Richard J.
45632236-ab00-4ad0-a02d-6209043e818b
Khlobystov, Andrei N.
27b2c834-ce18-4106-9cbe-17e2968551a4

Marsh, Dan H., Rance, Graham A., Zaka, Mujtaba H., Whitby, Richard J. and Khlobystov, Andrei N. (2007) Comparison of the stability of multiwalled carbon nanotube dispersions in water. Physical Chemistry Chemical Physics, 9 (40), 5490-5496. (doi:10.1039/b708460a).

Record type: Article

Abstract

Continuous real-time monitoring of the nanotube concentration in aqueous solution using UV-Vis spectroscopy allows quantitative comparison of the stability of different types of nanotube dispersions. Systematic investigation of the effects of nanotube length and functionalisation for thin multiwalled carbon nanotubes (MWNT) has revealed that shorter MWNT form more stable dispersions than longer nanotubes of the same diameter. MWNT shortened to an average length of approximately 1 µm form stable dispersions in water with concentrations up to 0.013 mg ml–1 in the absence of surfactants or solubilising functional groups. The introduction of carboxylic or thiol groups on the surface of shortened nanotubes further increases the stability of MWNT dispersions (up to 0.24 mg ml–1). The introduction of surfactant or surface charge on MWNT has contrasting effects on functionalised and non-functionalised nanotubes, destabilising and stabilising their dispersions, respectively.

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Published date: 2007
Keywords: purification, acid, chemistry, swnts, double-wall, oxidation
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Identifiers

Local EPrints ID: 54340
URI: http://eprints.soton.ac.uk/id/eprint/54340
DOI: doi:10.1039/b708460a
ISSN: 1463-9076
PURE UUID: 726d0dde-296a-4d78-a728-35f61671e69f
ORCID for Richard J. Whitby: ORCID iD orcid.org/0000-0002-9891-5502

Catalogue record

Date deposited: 30 Jul 2008
Last modified: 16 Mar 2024 02:33

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Contributors

Author: Dan H. Marsh
Author: Graham A. Rance
Author: Mujtaba H. Zaka
Author: Richard J. Whitby ORCID iD
Author: Andrei N. Khlobystov

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