Add to ORKGAs much as there is known about the phase behavior in systems of rods and systems of spheres, not much is known about systems in which both particles exist. Such systems, containing both rods and spheres, are experimentally studied by making samples containing 3μm by 0.6-0.7μm silica spherocylinders and silica spheres of diameters of 470nm and 1μm. These samples are imaged using a confocal microscope. Two structures that are characteristic for phases in systems of rods were found to have been influenced by the presence of spheres, also a structure has been found that is not characteristic for systems of either of the separate colloids; the lamellar structure
Self-assembly of binary particle systems offers many new opportunities for aterials science. Here, w...
We examine the influence of attractive interactions on the phase behavior of rodlike colloids. We mo...
We study the phase behavior of oppositely charged equal-size hard spheres both theoretically and ex...
The experimental phase diagram for aqueous mixtures of charged gibbsite platelets and silica spheres...
The crystallization of sedimentating silica spheres in the presence of silica-coated boehmite rods i...
Recently, a novel colloidal hard-rod-like model system was developed which consists of silica rods [...
The directed assembly of colloidal rods, spheres and their mixtures in external fields such as gravi...
Colloidal particles are applied throughout industry, for example in paints, food, personal care prod...
The reasons physicists give for studying colloids are varied. Our initial motivation was that colloi...
We report the observation of depletion-induced phase separation in a mixture of colloidal silica sph...
We have studied the coupling of aggregation and crystallization in a mixture of colloidal spheres a...
The phase behavior of some different colloid systems is reviewed. Starting off with polymer solution...
We determined the phase boundaries of aqueous mixtures containing colloidal rod-like fd-viruses and ...
Colloidal rods form the most basic system to study the origin of self-assembled structures. Dependin...
We study the phase behavior of rod-sphere mixtures in equilibrium and under shear flow. Mixtures of f...
Self-assembly of binary particle systems offers many new opportunities for aterials science. Here, w...
We examine the influence of attractive interactions on the phase behavior of rodlike colloids. We mo...
We study the phase behavior of oppositely charged equal-size hard spheres both theoretically and ex...
The experimental phase diagram for aqueous mixtures of charged gibbsite platelets and silica spheres...
The crystallization of sedimentating silica spheres in the presence of silica-coated boehmite rods i...
Recently, a novel colloidal hard-rod-like model system was developed which consists of silica rods [...
The directed assembly of colloidal rods, spheres and their mixtures in external fields such as gravi...
Colloidal particles are applied throughout industry, for example in paints, food, personal care prod...
The reasons physicists give for studying colloids are varied. Our initial motivation was that colloi...
We report the observation of depletion-induced phase separation in a mixture of colloidal silica sph...
We have studied the coupling of aggregation and crystallization in a mixture of colloidal spheres a...
The phase behavior of some different colloid systems is reviewed. Starting off with polymer solution...
We determined the phase boundaries of aqueous mixtures containing colloidal rod-like fd-viruses and ...
Colloidal rods form the most basic system to study the origin of self-assembled structures. Dependin...
We study the phase behavior of rod-sphere mixtures in equilibrium and under shear flow. Mixtures of f...
Self-assembly of binary particle systems offers many new opportunities for aterials science. Here, w...
We examine the influence of attractive interactions on the phase behavior of rodlike colloids. We mo...
We study the phase behavior of oppositely charged equal-size hard spheres both theoretically and ex...