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Microelectrophoresis of Silica Rods Using Confocal Microscopy.


ABSTRACT: The electrophoretic mobility and the zeta potential (?) of fluorescently labeled colloidal silica rods, with an aspect ratio of 3.8 and 6.1, were determined with microelectrophoresis measurements using confocal microscopy. In the case where the colloidal particles all move at the same speed parallel to the direction of the electric field, we record a xyz-stack over the whole depth of the capillary. This method is faster and more robust compared to taking xyt-series at different depths inside the capillary to obtain the parabolic flow profile, as was done in previous work from our group. In some cases, rodlike particles do not move all at the same speed in the electric field, but exhibit a velocity that depends on the angle between the long axis of the rod and the electric field. We measured the orientation-dependent velocity of individual silica rods during electrophoresis as a function of ?a, where ?-1 is the double layer thickness and a is the radius of the rod associated with the diameter. Thus, we determined the anisotropic electrophoretic mobility of the silica rods with different sized double layers. The size of the double layer was tuned by suspending silica rods in different solvents at different electrolyte concentrations. We compared these results with theoretical predictions. We show that even at already relatively high ?a when the Smoluchowski limiting law is assumed to be valid (?a > 10), an orientation dependent velocity was measured. Furthermore, we observed that at decreasing values of ?a the anisotropy in the electrophoretic mobility of the rods increases. However, in low polar solvents with ?a < 1, this trend was reversed: the anisotropy in the electrophoretic mobility of the rods decreased. We argue that this decrease is due to end effects, which was already predicted theoretically. When end effects are not taken into account, this will lead to strong underestimation of the experimentally determined zeta potential.

SUBMITTER: Bakker HE 

PROVIDER: S-EPMC5348103 | biostudies-literature | 2017 Jan

REPOSITORIES: biostudies-literature

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Microelectrophoresis of Silica Rods Using Confocal Microscopy.

Bakker Henriëtte E HE   Besseling Thijs H TH   Wijnhoven Judith E G J JE   Helfferich Peter H PH   van Blaaderen Alfons A   Imhof Arnout A  

Langmuir : the ACS journal of surfaces and colloids 20170119 4


The electrophoretic mobility and the zeta potential (ζ) of fluorescently labeled colloidal silica rods, with an aspect ratio of 3.8 and 6.1, were determined with microelectrophoresis measurements using confocal microscopy. In the case where the colloidal particles all move at the same speed parallel to the direction of the electric field, we record a xyz-stack over the whole depth of the capillary. This method is faster and more robust compared to taking xyt-series at different depths inside the  ...[more]

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