Molecular mobility of substituted poly(p-phenylenes) characterized by a range of polymer relaxation techniques

G. P. Simon; M. Safari Ardi; A. A. Goodwin; M. D. Zipper; S. R. Andrews; S. Shinton; G. Williams; M. Galop; M. Trimmer

doi:10.1002/(SICI)1099-0488(19980715)36:9<1465::AID-POLB5>3.0.CO;2-J

Molecular mobility of substituted poly(p-phenylenes) characterized by a range of polymer relaxation techniques

G. P. Simon, M. Safari Ardi, A. A. Goodwin, M. D. Zipper, S. R. Andrews, S. Shinton, G. Williams, M. Galop, M. Trimmer

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

10 Citations (Scopus)

Abstract

The free volume and related mobility properties of substituted poly(p-phenylene) polymers are examined. The techniques used range from positron annihilation, dielectric relaxation, and dynamic mechanical spectroscopy to thermally stimulated currents. Fractional free volume is determined for the samples with different substituted side groups and related to the glass transition temperature. Bulkier groups lead to a greater fractional free volume and lower glass transition temperatures. Comparison of molecular relaxation times using the different characterization techniques demonstrates that there is strong coupling between motion of the main chain and the side groups, on which the dipoles reside. Intermolecular coupling between the main chains at the primary relaxation is shown in this work to be related to the nature of the side chains and resultant free volume, as are the temperature locations of local, secondary relaxations. A qualitative model describing the effect of regiochemistry on the motions and packing of these materials is also proposed.

Original language	English
Pages (from-to)	1465-1481
Number of pages	17
Journal	Journal of Polymer Science, Part B: Polymer Physics
Volume	36
Issue number	9
DOIs	https://doi.org/10.1002/(SICI)1099-0488(19980715)36:9<1465::AID-POLB5>3.0.CO;2-J
Publication status	Published - 15 Jul 1998

Keywords

Dielectric
Dynamic mechanical
Free volume
Poly(phenylene)
Positron annihilation
Relaxation

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10.1002/(SICI)1099-0488(19980715)36:9<1465::AID-POLB5>3.0.CO;2-J

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Simon, G. P., Safari Ardi, M., Goodwin, A. A., Zipper, M. D., Andrews, S. R., Shinton, S., Williams, G., Galop, M., & Trimmer, M. (1998). Molecular mobility of substituted poly(p-phenylenes) characterized by a range of polymer relaxation techniques. Journal of Polymer Science, Part B: Polymer Physics, 36(9), 1465-1481. https://doi.org/10.1002/(SICI)1099-0488(19980715)36:9<1465::AID-POLB5>3.0.CO;2-J

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abstract = "The free volume and related mobility properties of substituted poly(p-phenylene) polymers are examined. The techniques used range from positron annihilation, dielectric relaxation, and dynamic mechanical spectroscopy to thermally stimulated currents. Fractional free volume is determined for the samples with different substituted side groups and related to the glass transition temperature. Bulkier groups lead to a greater fractional free volume and lower glass transition temperatures. Comparison of molecular relaxation times using the different characterization techniques demonstrates that there is strong coupling between motion of the main chain and the side groups, on which the dipoles reside. Intermolecular coupling between the main chains at the primary relaxation is shown in this work to be related to the nature of the side chains and resultant free volume, as are the temperature locations of local, secondary relaxations. A qualitative model describing the effect of regiochemistry on the motions and packing of these materials is also proposed.",

keywords = "Dielectric, Dynamic mechanical, Free volume, Poly(phenylene), Positron annihilation, Relaxation",

author = "Simon, {G. P.} and {Safari Ardi}, M. and Goodwin, {A. A.} and Zipper, {M. D.} and Andrews, {S. R.} and S. Shinton and G. Williams and M. Galop and M. Trimmer",

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Simon, GP, Safari Ardi, M, Goodwin, AA, Zipper, MD, Andrews, SR, Shinton, S, Williams, G, Galop, M & Trimmer, M 1998, 'Molecular mobility of substituted poly(p-phenylenes) characterized by a range of polymer relaxation techniques', Journal of Polymer Science, Part B: Polymer Physics, vol. 36, no. 9, pp. 1465-1481. https://doi.org/10.1002/(SICI)1099-0488(19980715)36:9<1465::AID-POLB5>3.0.CO;2-J

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AU - Simon, G. P.

AU - Safari Ardi, M.

AU - Goodwin, A. A.

AU - Zipper, M. D.

AU - Andrews, S. R.

AU - Shinton, S.

AU - Williams, G.

AU - Galop, M.

AU - Trimmer, M.

PY - 1998/7/15

Y1 - 1998/7/15

N2 - The free volume and related mobility properties of substituted poly(p-phenylene) polymers are examined. The techniques used range from positron annihilation, dielectric relaxation, and dynamic mechanical spectroscopy to thermally stimulated currents. Fractional free volume is determined for the samples with different substituted side groups and related to the glass transition temperature. Bulkier groups lead to a greater fractional free volume and lower glass transition temperatures. Comparison of molecular relaxation times using the different characterization techniques demonstrates that there is strong coupling between motion of the main chain and the side groups, on which the dipoles reside. Intermolecular coupling between the main chains at the primary relaxation is shown in this work to be related to the nature of the side chains and resultant free volume, as are the temperature locations of local, secondary relaxations. A qualitative model describing the effect of regiochemistry on the motions and packing of these materials is also proposed.

AB - The free volume and related mobility properties of substituted poly(p-phenylene) polymers are examined. The techniques used range from positron annihilation, dielectric relaxation, and dynamic mechanical spectroscopy to thermally stimulated currents. Fractional free volume is determined for the samples with different substituted side groups and related to the glass transition temperature. Bulkier groups lead to a greater fractional free volume and lower glass transition temperatures. Comparison of molecular relaxation times using the different characterization techniques demonstrates that there is strong coupling between motion of the main chain and the side groups, on which the dipoles reside. Intermolecular coupling between the main chains at the primary relaxation is shown in this work to be related to the nature of the side chains and resultant free volume, as are the temperature locations of local, secondary relaxations. A qualitative model describing the effect of regiochemistry on the motions and packing of these materials is also proposed.

KW - Dielectric

KW - Dynamic mechanical

KW - Free volume

KW - Poly(phenylene)

KW - Positron annihilation

KW - Relaxation

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JO - Journal of Polymer Science, Part B: Polymer Physics

JF - Journal of Polymer Science, Part B: Polymer Physics

IS - 9

ER -

Molecular mobility of substituted poly(p-phenylenes) characterized by a range of polymer relaxation techniques

Abstract

Keywords

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