Add to ORKGAbstract — We studied the migration of nonmagnetic, submi-crometer polystyrene beads submerged in a magnetic fluid in the presence of nonuniform magnetic fields as a potential method for size-based separation of submicrometer, nonmagnetic species. Since the polystyrene beads are much larger than the magnetic fluid nanoparticles, the magnetic fluid was treated as a one-component continuum with respect to the beads. We found that the polystyrene beads will migrate in the direction of decreasing magnetic fields and will focus over a region where the magnetic field or its gradient vanishes, as predicted by our model. The concentration profiles predicted by our model, which has no adjustable or fitted parameters, agree reasonably well with the e...
Continuous flow separation of magnetic particles within a microfluidic device could lead to improved...
AbstractExperimental and theoretical studies were carried out to investigate the spatial distributio...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 20...
Abstract — We studied the migration of nonmagnetic, submi-crometer polystyrene beads submerged in a ...
We studied the migration of nonmagnetic, submicrometer polystyrene beads submerged in a magnetic flu...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2002.Includes ...
The continuous flow separation of magnetic particles from a mixture of particles could improve the p...
For heterogeneous mixture, there are some separation techniques can be used to separate the mixture ...
A new approach for the removal of micron-sized particles from aqueous suspensions was developed and ...
Magnetophoresis-the motion of magnetic particles under applied magnetic gradient-is a process of gre...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2009.Includes...
We report an improved magnetophoretic method, isomagnetophoresis, employing the magnetic susceptibil...
The equilibrium concentration distribution of magnetic nanoparticles in a nonuniform magnetic field ...
Using magnetic particles with sizes in the nanometer range in biomedical magnetic separation has gai...
The separation of magnetic nanoparticles from a stable dispersion is a challenging task because of t...
Continuous flow separation of magnetic particles within a microfluidic device could lead to improved...
AbstractExperimental and theoretical studies were carried out to investigate the spatial distributio...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 20...
Abstract — We studied the migration of nonmagnetic, submi-crometer polystyrene beads submerged in a ...
We studied the migration of nonmagnetic, submicrometer polystyrene beads submerged in a magnetic flu...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2002.Includes ...
The continuous flow separation of magnetic particles from a mixture of particles could improve the p...
For heterogeneous mixture, there are some separation techniques can be used to separate the mixture ...
A new approach for the removal of micron-sized particles from aqueous suspensions was developed and ...
Magnetophoresis-the motion of magnetic particles under applied magnetic gradient-is a process of gre...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2009.Includes...
We report an improved magnetophoretic method, isomagnetophoresis, employing the magnetic susceptibil...
The equilibrium concentration distribution of magnetic nanoparticles in a nonuniform magnetic field ...
Using magnetic particles with sizes in the nanometer range in biomedical magnetic separation has gai...
The separation of magnetic nanoparticles from a stable dispersion is a challenging task because of t...
Continuous flow separation of magnetic particles within a microfluidic device could lead to improved...
AbstractExperimental and theoretical studies were carried out to investigate the spatial distributio...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Materials Science and Engineering, 20...