Abstract
We investigate the influence of flow fields on the strength of the depletion interaction caused by
disc-shaped depletants. At low mass concentration of discs, it is possible to continuously decrease the depth
of the depletion potential by increasing the applied shear rate until the depletion force is not perceivable
experimentally. Above a threshold in the platelet mass concentration, the depletion potential can no longer
be affected by flow in the accessible range of shear rates. While the observed decrease of depletion strength
at low depletant concentration may be ascribed to flow alignment of the discs, it is not clear why the
influence of flow is vanishing at high concentrations. In order to observe these effects, a modification of
the established total internal reflexion microscopy (TIRM) technique is be implemented. We show the
suitability of these modifications to measure particle-wall interaction potentials under non-equilibrium
conditions for systems where particles are exposed to a shear.
Original language | English |
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Article number | 35:60 |
Number of pages | 8 |
Journal | European physical journal. E, Soft Matter |
Volume | 35 |
DOIs | |
Publication status | Published - Jul 2012 |