Assembly of ordered colloidal aggregrates by electric-field-induced fluid flow.
TLDR
Evidence suggests that the long-ranged attraction between particles which causes aggregation is mediated by electric-field-induced fluid flow, and an axially symmetric flow field is imaged around individual particles on a uniform electrode surface.Abstract:
Suspensions of colloidal particles form a variety of ordered planar structures at an interface in response to an a.c. or d.c. electric field applied normal to the interface1–3. This field-induced pattern formation can be useful, for example, in the processing of materials. Here we explore the origin of the ordering phenomenon. We present evidence suggesting that the long-ranged attraction between particles which causes aggregation is mediated by electric-field-induced fluid flow. We have imaged an axially symmetric flow field around individual particles on a uniform electrode surface. The flow is induced by distortions in the applied electric field owing to inhomogeneities in the 'double layer' of ions and counterions at the electrode surface. The beads themselves can create these inhomogeneities, or alternatively, we can modify the electrode surfaces by lithographic patterning so as to introduce specified patterns into the aggregated structures.read more
Citations
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References
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Book
Surface and Colloid Science
TL;DR: In this paper, Ozaki et al. describe the dynamics of adsorption and Oxidation of organic Molecules on Illuminated Titanium Dioxide Particles Immersed in Water.
Journal ArticleDOI
Colloid Transport by Interfacial Forces
TL;DR: The existence of a slip velocity at solid/fluid interfaces opens a class of flow problems not generally recognized by the fluid-dynamics community as mentioned in this paper, and the existence of slip velocities at solid and fluid interfaces has been studied in the literature.
Journal ArticleDOI
Domain shapes and patterns: the phenomenology of modulated phases.
Michael Seul,David Andelman +1 more
TL;DR: The phenomenology of these patterns, and of the shapes of their constituent domains, is reviewed here from a point of view that interprets these patterns as a manifestation of modulated phases.
Journal ArticleDOI
Field-Induced Layering of Colloidal Crystals
TL;DR: The ability to modulate this “lateral attraction” between particles, by adjusting field strength or frequency, facilitates the reversible formation of two-dimensional fluid and crystalline colloidal states on the electrode surface.