The morphology of isotactic polystyrene crystals grown in thin films: the effect of substrate material
The morphology of isotactic polystyrene crystals grown in thin films: the effect of substrate material
Thin isotactic polystyrene films (∼50 nm thick) have been crystallized from the melt on various substrate materials (carbon, glass, mica, polyimide sheet and silicon). The morphology of the crystals has been examined using atomic force microscopy, and was found to be dependent on the nature of the substrate, with two basic types of crystal forming. Crystals either develop around giant screw dislocations, or around small bundles of lamellae growing perpendicular to the substrate surface. It has further been observed that the number of screw dislocations generated in the lamellae is also dependent on the substrate, as is the growth rate of the spiral terraces. These effects are interpreted in terms of interactions between the molecules in the melt and the substrate surface.
This revised version was published online in November 2006 with corrections to the Cover Date.
5621-5627
Sutton, S.J.
571c7136-1eb6-44e1-8979-ca0829469a6b
Izumi, K.
eeac0428-c735-4551-be68-dc4675e36fb0
Miyaji, H.
d415729c-c2b0-4db2-9057-ad2d72fed11c
Miyamoto, Y.
1bf2a4ae-9d29-4665-9f17-0e5004c7211e
Miyashita, S.
4ebd309a-37e5-406f-bba6-657fc4e67c52
1 November 1997
Sutton, S.J.
571c7136-1eb6-44e1-8979-ca0829469a6b
Izumi, K.
eeac0428-c735-4551-be68-dc4675e36fb0
Miyaji, H.
d415729c-c2b0-4db2-9057-ad2d72fed11c
Miyamoto, Y.
1bf2a4ae-9d29-4665-9f17-0e5004c7211e
Miyashita, S.
4ebd309a-37e5-406f-bba6-657fc4e67c52
Sutton, S.J., Izumi, K., Miyaji, H., Miyamoto, Y. and Miyashita, S.
(1997)
The morphology of isotactic polystyrene crystals grown in thin films: the effect of substrate material.
Journal of Materials Science, 32 (21), .
(doi:10.1023/A:1018688827486).
Abstract
Thin isotactic polystyrene films (∼50 nm thick) have been crystallized from the melt on various substrate materials (carbon, glass, mica, polyimide sheet and silicon). The morphology of the crystals has been examined using atomic force microscopy, and was found to be dependent on the nature of the substrate, with two basic types of crystal forming. Crystals either develop around giant screw dislocations, or around small bundles of lamellae growing perpendicular to the substrate surface. It has further been observed that the number of screw dislocations generated in the lamellae is also dependent on the substrate, as is the growth rate of the spiral terraces. These effects are interpreted in terms of interactions between the molecules in the melt and the substrate surface.
This revised version was published online in November 2006 with corrections to the Cover Date.
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Published date: 1 November 1997
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EEE
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Local EPrints ID: 408047
URI: http://eprints.soton.ac.uk/id/eprint/408047
ISSN: 0022-2461
PURE UUID: 3ede146f-4590-48aa-88d0-f871d4315d77
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Date deposited: 10 May 2017 01:06
Last modified: 15 Mar 2024 13:42
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Author:
S.J. Sutton
Author:
K. Izumi
Author:
H. Miyaji
Author:
Y. Miyamoto
Author:
S. Miyashita
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