Journal article
Quantitative characterization of magnetic separators: Comparison of systems with and without integrated microfluidic mixers
We present two new types of microfluidic passive magnetic bead separator systems as well as methods for performing quantitative characterizations of them. Both systems consist of a microfluidic channel with long rectangular magnetic elements of permalloy that are placed by the sides of the channel and magnetized by an external magnetic field.
In one of the systems, a staggered herringbone microfluidic mixer is integrated in the channel. The characterization of the systems includes magnetic measurements of the capture-and-release efficiencies, estimates of distributions of captured beads in a channel from micrographs, and simulations and analytical models of bead trajectories, capture efficiencies, and capture distributions.
We show that the efficiencies of both systems compare favorably to those in the literature. For the studied geometries, the mixer is demonstrated to increase the bead capture-and-release efficiency for a fixed flow rate by up to a factor of two. Moreover, high capture efficiencies can be achieved in the system with mixer at up to ten times higher flow rates than in the system without mixer.
| Language: | English |
|---|---|
| Publisher: | Kluwer Academic Publishers-Plenum Publishers |
| Year: | 2006 |
| Pages: | 195-205 |
| Journal subtitle: | Biomems and Biomedical Nanotechnology |
| ISSN: | 15728781 and 13872176 |
| Types: | Journal article |
| DOI: | 10.1007/s10544-006-9021-7 |
| ORCIDs: | Bruus, Henrik and Hansen, Mikkel Fougt |
Biomedical Engineering Biophysics/Biomedical Physics Bioseparation Computer Simulation Computer-Aided Design Engineering Engineering Fluid Dynamics Equipment Design Equipment Failure Analysis Immunomagnetic Separation Lab on a chip Magnetic beads Magnetic separation Magnetics Microfluidic Microfluidic Analytical Techniques Models, Theoretical Nanotechnology Systems Integration
