Edinburgh Research Explorer

Direct Measurement of Normal and Shear Forces between Surface-Grown Polyelectrolyte Layers

Research output: Contribution to journalArticle

  • Iain E. Dunlop
  • Wuge H. Briscoe
  • Simon Titmuss
  • Robert M. J. Jacobs
  • Vicky L. Osborne
  • Steve Edmondson
  • Wilhelm T. S. Huck
  • Jacob Klein

Related Edinburgh Organisations

Original languageEnglish
Pages (from-to)3947-3956
Number of pages10
JournalJournal of Physical Chemistry B
Volume113
Issue number12
DOIs
StatePublished - 26 Mar 2009

Abstract

This paper presents measurements, using the surface force balance (SFB), of the normal and shear forces in aqueous solutions between polyelectrolyte layers grown directly on mica substrates (grafted-from). The grafting-from was via surface-initiated atom transfer radical polymerization (surface-initiated ATRP) using a positively charged methacrylate monomer. X-ray reflectometry measurements confirm the successful formation of polyelectrolyte layers by this method. Surface-inititated ATRP has the advantages that the polymer chains can be strongly grafted to the substrate, and that high grafting densities should be achievable. Measured normal forces in water showed a long-range repulsion arising from an electrical double layer that extended beyond the polyelectrolyte layers, and a stronger, shorter-range repulsion when the polyelectrolyte brushes were in contact. Swollen layer thicknesses were in the range 15-40 nm. Upon addition of similar to 10(-2)-10(-1) M sodium nitrate, screening effects reduced the electrical double layer force to an undetectable level. Shear force measurements in pure water were performed, and the measured friction may arise from polymer chains bridging between the surfaces.

    Research areas

  • TRANSFER RADICAL POLYMERIZATION, MICA SURFACES, GRAFTED POLYELECTROLYTES, LUBRICATION PROPERTIES, BRUSHLIKE COPOLYMER, SUBNANOMETER FILMS, LANGMUIR-BLODGETT, BRUSHES, WATER, FRICTION

ID: 1406971