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Growth rate of isotactic polystyrene crystals in thin films

Growth rate of isotactic polystyrene crystals in thin films
Growth rate of isotactic polystyrene crystals in thin films
The lateral crystal growth rate of isotactic polystyrene lamellae developing in thin films (ranging from 20 nm to 500 nm) decreases with decreasing film thickness. The decrease in growth rate is inversely proportional to the film thickness: G ( D )= G (∞)(1- d / D ), where G ( D ) is the growth rate in a film of thickness D , G (∞) is the growth rate in the bulk, and d is a constant with a value of approximately 6 nm. Additionally, d is observed to be independent of the crystallization temperature; molecular weight and substrate material used in this study. It is proposed that the constant value of d corresponds to the tube diameter in the reptation model of polymer dynamics, and that near the substrate this diameter is reduced, thereby reducing the mobility of the molecules, and consequently the crystal growth rate.
crystal growth, thin film, polymer, polystyrene, reptation
0031-9015
3338-3341
Sawamura, S.
dc5a4b15-d5fd-4e3e-bc60-c257c4e75a6a
Miyaji, H.
d415729c-c2b0-4db2-9057-ad2d72fed11c
Izumi, K.
eeac0428-c735-4551-be68-dc4675e36fb0
Sutton, S.J.
571c7136-1eb6-44e1-8979-ca0829469a6b
Miyamoto, Y.
1bf2a4ae-9d29-4665-9f17-0e5004c7211e
Sawamura, S.
dc5a4b15-d5fd-4e3e-bc60-c257c4e75a6a
Miyaji, H.
d415729c-c2b0-4db2-9057-ad2d72fed11c
Izumi, K.
eeac0428-c735-4551-be68-dc4675e36fb0
Sutton, S.J.
571c7136-1eb6-44e1-8979-ca0829469a6b
Miyamoto, Y.
1bf2a4ae-9d29-4665-9f17-0e5004c7211e

Sawamura, S., Miyaji, H., Izumi, K., Sutton, S.J. and Miyamoto, Y. (1998) Growth rate of isotactic polystyrene crystals in thin films. Journal of the Physical Society of Japan, 67 (10), 3338-3341. (doi:10.1143/JPSJ.67.3338).

Record type: Article

Abstract

The lateral crystal growth rate of isotactic polystyrene lamellae developing in thin films (ranging from 20 nm to 500 nm) decreases with decreasing film thickness. The decrease in growth rate is inversely proportional to the film thickness: G ( D )= G (∞)(1- d / D ), where G ( D ) is the growth rate in a film of thickness D , G (∞) is the growth rate in the bulk, and d is a constant with a value of approximately 6 nm. Additionally, d is observed to be independent of the crystallization temperature; molecular weight and substrate material used in this study. It is proposed that the constant value of d corresponds to the tube diameter in the reptation model of polymer dynamics, and that near the substrate this diameter is reduced, thereby reducing the mobility of the molecules, and consequently the crystal growth rate.

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More information

Published date: October 1998
Keywords: crystal growth, thin film, polymer, polystyrene, reptation
Organisations: EEE

Identifiers

Local EPrints ID: 408046
URI: http://eprints.soton.ac.uk/id/eprint/408046
DOI: doi:10.1143/JPSJ.67.3338
ISSN: 0031-9015
PURE UUID: a87dbab7-932b-4945-af14-5bd8033cf304

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Date deposited: 10 May 2017 01:06
Last modified: 15 Mar 2024 13:42

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Contributors

Author: S. Sawamura
Author: H. Miyaji
Author: K. Izumi
Author: S.J. Sutton
Author: Y. Miyamoto

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