Holger Reiber scite author profile

We report on comprehensive measurements of the electrophoretic mobility µ of a highly charged spherical colloid in deionized or low salt aqueous suspensions, where fluid and crystalline order develops with increased packing fraction . We propose the existence of a 'universal' shape of the µ( ) showing three distinct regimes: a logarithmic increase, a plateau and a logarithmic decrease. The position and the height of the plateau are found to be influenced by the particle surface properties and the electrolyte concentration. In particular, it starts once the counter-ion concentration becomes equal to the concentration of background electrolyte. This coincides only loosely with the range of where fluid order is developing. Also the better defined first order freezing transition is observed to be uncorrelated to the shape of the µ( ) curve.

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Phase behaviour of deionized binary mixtures of charged colloidal spheres

Lorenz

Schöpe

Reiber

et al. 2009

J. Phys.: Condens. Matter

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We review recent work on the phase behaviour of binary charged sphere mixtures as a function of particle concentration and composition. Both size ratios Γ and charge ratios Λ are varied over a wide range. Unlike the case for hard spheres, the long-ranged Coulomb interaction stabilizes the crystal phase at low particle concentrations and shifts the occurrence of amorphous solids to particle concentrations considerably larger than the freezing concentration. Depending on Γ and Λ, we observe upper azeotrope, spindle, lower azeotrope and eutectic types of phase diagrams, all known well from metal systems. Most solids are of body centred cubic structure. Occasionally stoichiometric compounds are formed at large particle concentrations. For very low Γ, entropic effects dominate and induce a fluid-fluid phase separation. Since for charged spheres the charge ratio Λ is also decisive for the type of phase diagram, future experiments with charge variable silica spheres are suggested.

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Salt concentration and particle density dependence of electrophoretic mobilities of spherical colloids in aqueous suspension

Reiber

Köller

Palberg

et al. 2007

Journal of Colloid and Interface Science

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Communications: Complete description of re-entrant phase behavior in a charge variable colloidal model system

Wette

Klassen

Holland‐Moritz

et al. 2010

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Drude-type conductivity of charged sphere colloidal crystals: Density and temperature dependence

Medebach

Jordán

Reiber

et al. 2005

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We report on extensive measurements in the low-frequency limit of the ac conductivity of colloidal fluids and crystals formed from charged colloidal spheres suspended in de-ionized water. Temperature was varied in a range of 5 degrees C < Theta < 35 degrees C and the particle number density n between 0.2 and 25 microm(-3) for the larger, respectively, 2.75 and 210 microm(-3) for the smaller of two investigated species. At fixed Theta the conductivity increased linearly with increasing n without any significant change at the fluid-solid phase boundary. At fixed n it increased with increasing Theta and the increase was more pronounced for larger n. Lacking a rigorous electrohydrodynamic treatment for counterion-dominated systems we describe our data with a simple model relating to Drude's theory of metal conductivity. The key parameter is an effectively transported particle charge or valence Z(*). All temperature dependencies other than that of Z(*) were taken from literature. Within experimental resolution Z(*) was found to be independent of n irrespective of the suspension structure. Interestingly, Z(*) decreases with temperature in near quantitative agreement with numerical calculations.

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Holger Reiber

Electrophoresis of model colloidal spheres in low salt aqueous suspension

Phase behaviour of deionized binary mixtures of charged colloidal spheres

Salt concentration and particle density dependence of electrophoretic mobilities of spherical colloids in aqueous suspension

Communications: Complete description of re-entrant phase behavior in a charge variable colloidal model system

Drude-type conductivity of charged sphere colloidal crystals: Density and temperature dependence

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