On the crucial role of wetting in the preparation of conductive polystyrene-carbon nanotube composites

N. Grossiord; H.E. Miltner; J. Loos; J. Meuldijk; B. Van Mele; C.E. Koning

doi:10.1021/cm062998o

On the crucial role of wetting in the preparation of conductive polystyrene-carbon nanotube composites

N. Grossiord, H.E. Miltner, J. Loos, J. Meuldijk, B. Van Mele, C.E. Koning

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

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Abstract

Polystyrene-single-wall carbon nanotube (PS-SWNT) nanocomposites were prepared by directly mixing aqueous suspensions of exfoliated SWNTs and PS latex particles. After freeze-drying and compression molding, homogeneous polymer films were obtained with well-dispersed carbon nanotubes, as evidenced by scanning electron microscopy imaging. The nanocomposite films display a low percolation threshold and high levels of electrical conductivity. Simultaneously, a considerable increase in the glass-transition temperature of PS is achieved, provided that a sufficient amount of low-molar-mass PS is present in the matrix material. It is suggested that a certain extent of molar mass segregation occurs in the samples, with shorter PS chains preferentially adsorbed onto the nanotube surface. The latter wetting mechanism is indispensable for obtaining favorable electrical and thermal properties.

Original language	English
Pages (from-to)	3787-3792
Journal	Chemistry of Materials
Volume	19
Issue number	15
DOIs	https://doi.org/10.1021/cm062998o
Publication status	Published - 2007

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10.1021/cm062998o

Center for Multiscale Electron Microscopy (CMEM)
Friedrich, H. (Manager), Bransen, M. (Education/research officer), Schmit, P. (Education/research officer), Schreur - Piet, I. (Other) & Spoelstra, A. (Education/research officer)
Physical Chemistry
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title = "On the crucial role of wetting in the preparation of conductive polystyrene-carbon nanotube composites",

abstract = "Polystyrene-single-wall carbon nanotube (PS-SWNT) nanocomposites were prepared by directly mixing aqueous suspensions of exfoliated SWNTs and PS latex particles. After freeze-drying and compression molding, homogeneous polymer films were obtained with well-dispersed carbon nanotubes, as evidenced by scanning electron microscopy imaging. The nanocomposite films display a low percolation threshold and high levels of electrical conductivity. Simultaneously, a considerable increase in the glass-transition temperature of PS is achieved, provided that a sufficient amount of low-molar-mass PS is present in the matrix material. It is suggested that a certain extent of molar mass segregation occurs in the samples, with shorter PS chains preferentially adsorbed onto the nanotube surface. The latter wetting mechanism is indispensable for obtaining favorable electrical and thermal properties.",

author = "N. Grossiord and H.E. Miltner and J. Loos and J. Meuldijk and {Van Mele}, B. and C.E. Koning",

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language = "English",

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journal = "Chemistry of Materials",

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T1 - On the crucial role of wetting in the preparation of conductive polystyrene-carbon nanotube composites

AU - Grossiord, N.

AU - Miltner, H.E.

AU - Loos, J.

AU - Meuldijk, J.

AU - Van Mele, B.

AU - Koning, C.E.

PY - 2007

Y1 - 2007

N2 - Polystyrene-single-wall carbon nanotube (PS-SWNT) nanocomposites were prepared by directly mixing aqueous suspensions of exfoliated SWNTs and PS latex particles. After freeze-drying and compression molding, homogeneous polymer films were obtained with well-dispersed carbon nanotubes, as evidenced by scanning electron microscopy imaging. The nanocomposite films display a low percolation threshold and high levels of electrical conductivity. Simultaneously, a considerable increase in the glass-transition temperature of PS is achieved, provided that a sufficient amount of low-molar-mass PS is present in the matrix material. It is suggested that a certain extent of molar mass segregation occurs in the samples, with shorter PS chains preferentially adsorbed onto the nanotube surface. The latter wetting mechanism is indispensable for obtaining favorable electrical and thermal properties.

AB - Polystyrene-single-wall carbon nanotube (PS-SWNT) nanocomposites were prepared by directly mixing aqueous suspensions of exfoliated SWNTs and PS latex particles. After freeze-drying and compression molding, homogeneous polymer films were obtained with well-dispersed carbon nanotubes, as evidenced by scanning electron microscopy imaging. The nanocomposite films display a low percolation threshold and high levels of electrical conductivity. Simultaneously, a considerable increase in the glass-transition temperature of PS is achieved, provided that a sufficient amount of low-molar-mass PS is present in the matrix material. It is suggested that a certain extent of molar mass segregation occurs in the samples, with shorter PS chains preferentially adsorbed onto the nanotube surface. The latter wetting mechanism is indispensable for obtaining favorable electrical and thermal properties.

U2 - 10.1021/cm062998o

DO - 10.1021/cm062998o

M3 - Article

SN - 0897-4756

VL - 19

SP - 3787

EP - 3792

JO - Chemistry of Materials

JF - Chemistry of Materials

IS - 15

ER -

On the crucial role of wetting in the preparation of conductive polystyrene-carbon nanotube composites

Abstract

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