Preparation and Properties of Monodisperse Latex Spheres with
Controlled Magnetic Moment for Field-Induced Colloidal
Crystallization and (Dipolar) Chain Formation
posted on 2006-11-21, 00:00authored byS. Sacanna, A. P. Philipse
We report the preparation and properties of monodisperse magnetic poly(methyl methacrylate) latex spheres that
exhibit field-induced colloidal crystallization to exotic morphologies controlled by the geometry of the gradient. The
magnetic moment of the novel magnetic spheres is due to an inner core of magnetite particles. These particles, obtained
from a conventional ferrofluid, first form a monodisperse emulsion with a silane coupling agent, after which they are
directly incorporated in PMMA latex synthesized by standard emulsion polymerization. Scattering from the latex shell
dominates over light absorption by the magnetic cores such that visible Bragg reflections of the magnetic crystals
can be clearly observed. Concentrated nearly white latex fluids may exhibit near a magnet the warped equilibrium
menisci known from the usually dark magnetite ferrofluids. Of the many possible applications, we briefly discuss the
subsequent growth and melting of crystals by a slowly oscillating gradient, the formation of radial lattices, and the
formation of ordered magnetic dots in PMMA latex films.