Surface Energy and Morphology of Blend Films of Polystyrene and Polybutadiene

Mai S.Y. Ibrahim; Faten E. Al-Hazmi; Marloes Peeters; Matthew J. German; Robert D. Crapnell; Tracey Davey; Jake Sheriff; Matthew K. Sharpe; Callum D. McAleese; Pierre Couture; Mark Geoghegan

doi:10.1002/macp.202500126

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Surface Energy and Morphology of Blend Films of Polystyrene and Polybutadiene

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Surface Energy and Morphology of Blend Films of Polystyrene and Polybutadiene

Mai S.Y. Ibrahim, Faten E. Al-Hazmi, Marloes Peeters, Matthew J. German, Robert D. Crapnell, Tracey Davey, Jake Sheriff, Matthew K. Sharpe, Callum D. McAleese, Pierre Couture, …

Macromolecular chemistry and physics

2025

DOI: https://doi.org/10.1002/macp.202500126

Abstract

atomic force microscopy

electron microscopy

Ion beam analysis

optical microscopy

polymer blends

surface analysis

surface energy

Ion beam and surface analysis complemented with optical and electron microscopy are used to analyze the structure of spin-coated films of blends of polystyrene and polybutadiene. Both polystyrene and polybutadiene preferentially segregate to the surface depending on the molar mass of the blend, but only the smallest polystyrene chains dominate surface-enriched layers. Contact angle experiments reveal that the surface energy of the films is dominated by film morphology rather than the surface energy of the individual components. It is concluded that polymer chain mobility in the toluene solvent during spin casting is an important factor in controlling the surface structure.

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Title: Surface Energy and Morphology of Blend Films of Polystyrene and Polybutadiene
Creators: Mai S.Y. Ibrahim - Jeddah University
Faten E. Al-Hazmi - King Abdulaziz University
Marloes Peeters - Newcastle University
Matthew J. German - Newcastle University
Robert D. Crapnell - Manchester Metropolitan University
Tracey Davey - Newcastle University
Jake Sheriff - Newcastle University
Matthew K. Sharpe - University of Surrey
Callum D. McAleese - University of Surrey
Pierre Couture - University of Surrey
Mark Geoghegan - Newcastle University
Publication Details: Macromolecular chemistry and physics
Publisher: WILEY-V C H VERLAG GMBH; WEINHEIM
Number of pages: 10
Publication Date: 2025
Grant note: EPSRCKing Abdulaziz University under the Joint Supervision Programme with Newcastle University: B200, BB/R013942/1
M.S.Y.I. acknowledges a doctoral scholarship from King Abdulaziz University under the Joint Supervision Programme with Newcastle University. Dr. Sudhakar Ganta performed GPC measurements on the polybutadiene samples (B3 and B200). T.D. acknowledges support from the BBSCRC (BB/R013942/1). P.C., C.D.M.A., and M.K.S. acknowledge Dr Vladimir Palitsin for help in developing and maintaining the beamlines and accelerator at the National Ion Beam Facility. The authors are grateful to the EPSRC for access to the National Ion Beam Facility through a pump-priming grant (EP/X015491/1). M.S.Y.I. and M.G. are grateful to Professor Vasileios Koutsos (University of Edinburgh) for some useful conversations and comments.
Identifiers: 991006099102346; WOS:001512492100001
Academic Unit: School of Computer Science and Electronic Engineering
Language: English
Resource Type: Journal article

Surface Energy and Morphology of Blend Films of Polystyrene and Polybutadiene

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