Title :
Magnetic confinement of paramagnetic micro and nano-particles away from solid walls
Author :
Berthier, Jean ; Pham, Pascale ; Massé, Philippe ; Massé, Dominique
Author_Institution :
Departement Systemes pour l´´Inf. et la Sante, LETI, Grenoble, France
fDate :
3/1/2002 12:00:00 AM
Abstract :
In many biological processes, like medical diagnostic, using paramagnetic micro or nanosized particles, adherence of these particles to the walls is a major drawback to the efficiency of the process. Usually, one tries to use electrostatic repulsion and/or special wall chemical treatment to reduce the number of particles sticking to the walls. Another way of keeping the particles away from the walls, based upon magnetic repulsion, is presented here. The advantage is that it does not require changing the chemical composition of the fluid/walls, it acts only externally on the magnetic colloid. The method is first described by numerical simulation using a finite element approach. Then an experimental confirmation of the principle is shown
Keywords :
finite element analysis; magnetic fluids; magnetic particles; nanostructured materials; paramagnetic materials; biological process; finite element method; magnetic colloid; magnetic confinement; magnetic repulsion; medical diagnostics; numerical simulation; paramagnetic micro-particles; paramagnetic nano-particles; solid wall; Biological processes; Chemicals; Electrostatics; Finite element methods; Magnetic confinement; Magnetic liquids; Medical diagnosis; Nanobioscience; Numerical simulation; Paramagnetic materials;
Journal_Title :
Magnetics, IEEE Transactions on
