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Jason C.W. Corbett, Fraser McNeil-Watson, Robert O. Jack, Martin Howarth
Colloids and Surfaces A: Physicochemical and Engineering Aspects, Volume 396, February 2012
Abstract
A technique for the measurement of surface zeta potential of a test surface, mounted on a dip cell is presented. The mobility of tracer particles in the vicinity of the charged test surface is measured using phase analysis light scattering (PALS) and a simple model used to describe the electroosmotic flow near the surface fitted. The technique is a considerable simplification over previous measurements of surface zeta potential, requiring only a single small test surface (5 mm × 4 mm) with no sealing with advantages for the measurement of expensive and/or fragile surfaces. The technique is shown to be characterised by a relative standard deviation in reproducibility of 10% for well behaved systems, yielding accurate and reproducible surface potential values in excellent agreement with literature values from streaming potential, electroosmotic (capillary) flow and particle dispersions for various surface types, temperatures and ionic strengths.
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