Home List of Titles Adsorbed layer structure of a weak polyelectrolyte studied by colloidal probe microscopy and QCM-D as a function of pH and ionic strength
Please use this identifier to cite or link to this item: http://hdl.handle.net/1959.3/231527
- Adsorbed layer structure of a weak polyelectrolyte studied by colloidal probe microscopy and QCM-D as a function of pH and ionic strength
- Notley, Shannon M.; Biggs, Simon; Craig, Vincent S. J.; Wagberg, Lars
- The adsorbed layer structure of a weak polyelectrolyte poly(2- vinylpyridine), on silica and mica, has been studied using colloidal probe microscopy (CPM) and the quartz crystal microbalance (QCM-D). The adsorbed layer structure was found to be highly dependent on both the solution conditions from which it was adsorbed and the molecular weight. Conditions were altered to favour both flat adsorbed layers and the development of significant steric layers. The structural reconformation of the large steric layer was furthermore studied as a function of pH. The equilibrium interaction force, measured using CPM as a function of surface separation, was used to determine the relative extension of the polyelectrolyte away from the interface. At low pH (3.2) and high ionic strength, the adsorbed polyelectrolyte molecules adopt a highly extended conformation; as the pH is increased (to 4.6 then to 5.5) the polymer chains collapse progressively towards the interface. Reversal of this pH cycle causes a re-protonation of the adsorbed polymers and highlights the finite timescale for this process to occur. The kinetics of this process was measured from the amount of trapped solvent within the polyelectrolyte layer as determined from the QCM-D. Upon decrease in pH, the adsorbed chains swell before partially collapsing. We propose that this is due to cross-linking of the polymer in the protonated state. Furthermore, the combination of techniques used in this study, namely optical reflectometry, CPM and QCM-D, allows the determination of the solvent content of the adsorbed film of polyelectrolyte as well as the extension of the polymer from the interface as a function of pH.
- Publication type
- Journal article
- Physical Chemistry Chemical Physics, Vol. 6, no. 9 (May 2004), pp. 2379-2386
- Publication year
- FOR Code(s)
- 02 Physical Sciences; 03 Chemical Sciences
- Acidity; Adsorption kinetics; Chemical structure; Colloid probe microscopy; Cross linking; Ionic strength; Mica; Microscopy; Molecular weight; pH; Physical chemistry; Poly 2 vinylpyridine; Polyelectrolyte; Proton transport; Quartz crystal microbalance; Reflectometry; Silicon dioxide; Unclassified drug
- Royal Society of Chemistry
- Publisher URL
- Copyright © 2004 The Owner Societies.
- Additional information
- Supported by the Australian Research Council.
- Peer reviewed