Samenvatting
Colloids in aqueous suspensions can experience strong, extremely long
range repulsive forces near interfaces such as biological tissues, gels,
ion exchange resins or metals. As a result exclusion zones extending
over several millimeters can be formed. While this phenomenon has been
previously described, a physical understanding of this process is still
lacking. This exclusion zone formation is puzzling because the typical
forces acting on colloidal particles are limited to much shorter
distances and external fields that could drive the particles are absent.
Here we study the exclusion zone formation in detail by following the
time and distance-dependent forces acting on the particles. We present a
simple model that accounts for our experimental data and directly links
the exclusion zone formation to an already known physical transport
phenomenon. We show that the effect can be tuned by changing the zeta
potential of the particles or by varying the species present in the
aqueous solution. We thus provide a direct physical explanation for the
intriguing exclusion zone formation and we illustrate how this effect
can be exploited in a range of industrial applications.
Originele taal-2 | Engels |
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Status | Gepubliceerd - 1 mrt. 2013 |
Evenement | APS March Meeting 2013 - Baltimore, Verenigde Staten van Amerika Duur: 18 mrt. 2013 → 22 mrt. 2013 |
Congres
Congres | APS March Meeting 2013 |
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Land/Regio | Verenigde Staten van Amerika |
Stad | Baltimore |
Periode | 18/03/13 → 22/03/13 |