1. Experimental Phase Diagram of Symmetric Binary Colloidal Mixtures with Opposite Charges
- Author
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M. S. Romero-Cano, Antonio M. Puertas, and José B. Caballero
- Subjects
chemistry.chemical_classification ,Salt (chemistry) ,Binary number ,Thermodynamics ,Surfaces, Coatings and Films ,Physics::Fluid Dynamics ,Condensed Matter::Soft Condensed Matter ,Colloid ,Reentrancy ,chemistry ,Phase (matter) ,Volume fraction ,Materials Chemistry ,Scattering, Radiation ,DLVO theory ,Colloids ,Physical and Theoretical Chemistry ,Gels ,Phase diagram - Abstract
The phase behavior of equimolar mixtures of oppositely charged colloidal systems with similar absolute charges is studied experimentally as a function of the salt concentration in the system and the colloid volume fraction. As the salt concentration increases, fluids of irreversible clusters, gels, liquid-gas coexistence, and finally, homogeneous fluids, are observed. Previous simulations of similar mixtures of Derjaguin-Landau-Verwey-Overbeek (DLVO) particles indeed showed the transition from homogeneous fluids to liquid-gas separation, but also predicted a reentrant fluid phase at low salt concentrations, which is not found in the experiments. Possibly, the fluid of clusters could be caused by a nonergodicity transition responsible for the gel phase in the reentrant fluid phase. Liquid-gas separation takes a delay time after the sample is prepared, whereas gels collapse from the beginning. The density of the liquid in coexistence with a vapor phase depends linearly on the overall colloid density of the system. The vapor, on the other hand, is comprised of equilibrium clusters, as expected from the simulations.
- Published
- 2006
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