Structure and rheology of supercritical carbon dioxide exfoliated polymer nanocomposites

G. K. Serhatkulu; S. E. Horsch; R. Kannan; E. Gulari

Structure and rheology of supercritical carbon dioxide exfoliated polymer nanocomposites

G. K. Serhatkulu, S. E. Horsch, R. Kannan, E. Gulari

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

A major technological barrier to achieving superior properties of nano-structured composite materials is the difficulty of dispersing fillers uniformly in a host matrix. The existing nanocomposite manufacturing processes achieve property improvements through chemical modifications of filler structures and utilization of chemical interactions between the chemically modified fillers and matrix polymers. We have developed a novel and efficient supercritical fluid processing method for extensively exfoliating and coating nano-scale fillers for use in polymeric nanocomposites. The filler material, consisting of aggregated or layered particles, is contacted with a supercritical fluid containing a soluble organic material for a certain time, the soak step, followed by a catastrophic depressurization step. During the soak step, under the selected processing conditions, the mixture of the supercritical fluid and the organic material diffuses between the layers or bundles..Depending on the selected conditions and the solubility of the organic material in the supercritical fluid, the mixture can be a gas-expanded liquid phase or a dense-gas solution. The high diffusivity and low viscosity of the mixture enable efficient kinetics of this step. During depressurization, expansion of the gas between the layers or bundles pushes them apart causing extensive exfoliation while the organic material remains between the layers and bundles, coating the surfaces of the layers or bundles, thus preventing the reformation of the layered structure. We investigated the structure and rheology of several nanocomposites prepared by the supercritical carbon dioxide exfoliation and coating process: Thermoplastic Polyurethane (TPU)/graphite nanocomposite Polydimethlsiloxane (PDMS)/natural clay nanocomposite Polyvinylmethylether (PVME)/I30P (a chemically modified clay). The morphology of the samples was studied by X-ray diffraction (XRD) and transmission electron microscopy (TEM) and the steady-shear and oscillatory-shear measurements were performed on the Rheometrics ARES and the Rheometrics RSA n rheometers, respectively.

Original language	English (US)
Title of host publication	2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings
Editors	M. Laudon, B. Romanowicz
Pages	123-126
Number of pages	4
State	Published - Dec 1 2005
Externally published	Yes
Event	2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 - Anaheim, CA, United States Duration: May 8 2005 → May 12 2005

Publication series

Name	2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings

Other

Other	2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005
Country/Territory	United States
City	Anaheim, CA
Period	5/8/05 → 5/12/05

Keywords

Clays
Coating
Exfoliation
Graphite
PDMS
PVME
Supercritical fluids
TPU

ASJC Scopus subject areas

Engineering(all)

Cite this

Serhatkulu, G. K., Horsch, S. E., Kannan, R., & Gulari, E. (2005). Structure and rheology of supercritical carbon dioxide exfoliated polymer nanocomposites. In M. Laudon, & B. Romanowicz (Eds.), 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings (pp. 123-126). (2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings).

Structure and rheology of supercritical carbon dioxide exfoliated polymer nanocomposites. / Serhatkulu, G. K.; Horsch, S. E.; Kannan, R. et al.
2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings. ed. / M. Laudon; B. Romanowicz. 2005. p. 123-126 (2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Serhatkulu, GK, Horsch, SE, Kannan, R & Gulari, E 2005, Structure and rheology of supercritical carbon dioxide exfoliated polymer nanocomposites. in M Laudon & B Romanowicz (eds), 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings. 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings, pp. 123-126, 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005, Anaheim, CA, United States, 5/8/05.

Serhatkulu GK, Horsch SE, Kannan R, Gulari E. Structure and rheology of supercritical carbon dioxide exfoliated polymer nanocomposites. In Laudon M, Romanowicz B, editors, 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings. 2005. p. 123-126. (2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings).

Serhatkulu, G. K. ; Horsch, S. E. ; Kannan, R. et al. / Structure and rheology of supercritical carbon dioxide exfoliated polymer nanocomposites. 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings. editor / M. Laudon ; B. Romanowicz. 2005. pp. 123-126 (2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings).

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abstract = "A major technological barrier to achieving superior properties of nano-structured composite materials is the difficulty of dispersing fillers uniformly in a host matrix. The existing nanocomposite manufacturing processes achieve property improvements through chemical modifications of filler structures and utilization of chemical interactions between the chemically modified fillers and matrix polymers. We have developed a novel and efficient supercritical fluid processing method for extensively exfoliating and coating nano-scale fillers for use in polymeric nanocomposites. The filler material, consisting of aggregated or layered particles, is contacted with a supercritical fluid containing a soluble organic material for a certain time, the soak step, followed by a catastrophic depressurization step. During the soak step, under the selected processing conditions, the mixture of the supercritical fluid and the organic material diffuses between the layers or bundles..Depending on the selected conditions and the solubility of the organic material in the supercritical fluid, the mixture can be a gas-expanded liquid phase or a dense-gas solution. The high diffusivity and low viscosity of the mixture enable efficient kinetics of this step. During depressurization, expansion of the gas between the layers or bundles pushes them apart causing extensive exfoliation while the organic material remains between the layers and bundles, coating the surfaces of the layers or bundles, thus preventing the reformation of the layered structure. We investigated the structure and rheology of several nanocomposites prepared by the supercritical carbon dioxide exfoliation and coating process: Thermoplastic Polyurethane (TPU)/graphite nanocomposite Polydimethlsiloxane (PDMS)/natural clay nanocomposite Polyvinylmethylether (PVME)/I30P (a chemically modified clay). The morphology of the samples was studied by X-ray diffraction (XRD) and transmission electron microscopy (TEM) and the steady-shear and oscillatory-shear measurements were performed on the Rheometrics ARES and the Rheometrics RSA n rheometers, respectively.",

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N2 - A major technological barrier to achieving superior properties of nano-structured composite materials is the difficulty of dispersing fillers uniformly in a host matrix. The existing nanocomposite manufacturing processes achieve property improvements through chemical modifications of filler structures and utilization of chemical interactions between the chemically modified fillers and matrix polymers. We have developed a novel and efficient supercritical fluid processing method for extensively exfoliating and coating nano-scale fillers for use in polymeric nanocomposites. The filler material, consisting of aggregated or layered particles, is contacted with a supercritical fluid containing a soluble organic material for a certain time, the soak step, followed by a catastrophic depressurization step. During the soak step, under the selected processing conditions, the mixture of the supercritical fluid and the organic material diffuses between the layers or bundles..Depending on the selected conditions and the solubility of the organic material in the supercritical fluid, the mixture can be a gas-expanded liquid phase or a dense-gas solution. The high diffusivity and low viscosity of the mixture enable efficient kinetics of this step. During depressurization, expansion of the gas between the layers or bundles pushes them apart causing extensive exfoliation while the organic material remains between the layers and bundles, coating the surfaces of the layers or bundles, thus preventing the reformation of the layered structure. We investigated the structure and rheology of several nanocomposites prepared by the supercritical carbon dioxide exfoliation and coating process: Thermoplastic Polyurethane (TPU)/graphite nanocomposite Polydimethlsiloxane (PDMS)/natural clay nanocomposite Polyvinylmethylether (PVME)/I30P (a chemically modified clay). The morphology of the samples was studied by X-ray diffraction (XRD) and transmission electron microscopy (TEM) and the steady-shear and oscillatory-shear measurements were performed on the Rheometrics ARES and the Rheometrics RSA n rheometers, respectively.

AB - A major technological barrier to achieving superior properties of nano-structured composite materials is the difficulty of dispersing fillers uniformly in a host matrix. The existing nanocomposite manufacturing processes achieve property improvements through chemical modifications of filler structures and utilization of chemical interactions between the chemically modified fillers and matrix polymers. We have developed a novel and efficient supercritical fluid processing method for extensively exfoliating and coating nano-scale fillers for use in polymeric nanocomposites. The filler material, consisting of aggregated or layered particles, is contacted with a supercritical fluid containing a soluble organic material for a certain time, the soak step, followed by a catastrophic depressurization step. During the soak step, under the selected processing conditions, the mixture of the supercritical fluid and the organic material diffuses between the layers or bundles..Depending on the selected conditions and the solubility of the organic material in the supercritical fluid, the mixture can be a gas-expanded liquid phase or a dense-gas solution. The high diffusivity and low viscosity of the mixture enable efficient kinetics of this step. During depressurization, expansion of the gas between the layers or bundles pushes them apart causing extensive exfoliation while the organic material remains between the layers and bundles, coating the surfaces of the layers or bundles, thus preventing the reformation of the layered structure. We investigated the structure and rheology of several nanocomposites prepared by the supercritical carbon dioxide exfoliation and coating process: Thermoplastic Polyurethane (TPU)/graphite nanocomposite Polydimethlsiloxane (PDMS)/natural clay nanocomposite Polyvinylmethylether (PVME)/I30P (a chemically modified clay). The morphology of the samples was studied by X-ray diffraction (XRD) and transmission electron microscopy (TEM) and the steady-shear and oscillatory-shear measurements were performed on the Rheometrics ARES and the Rheometrics RSA n rheometers, respectively.

KW - Clays

KW - Coating

KW - Exfoliation

KW - Graphite

KW - PDMS

KW - PVME

KW - Supercritical fluids

KW - TPU

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EP - 126

BT - 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005 Technical Proceedings

A2 - Laudon, M.

A2 - Romanowicz, B.

T2 - 2005 NSTI Nanotechnology Conference and Trade Show - NSTI Nanotech 2005

Y2 - 8 May 2005 through 12 May 2005

ER -

Structure and rheology of supercritical carbon dioxide exfoliated polymer nanocomposites

Abstract

Publication series

Other

Keywords

ASJC Scopus subject areas

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