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HomeKeywordshigh gradient magnetic separation

Keywords: high gradient magnetic separation

Modeling Particle-Fluid Coupling and its Impact on Magnetic Particle Transport in Microfluidic Systems

Khashan S.A., Furlani E.P., University at Buffalo (SUNY), US
Applications of magnetic particles have grown dramatically in recent years, especially for emerging microfluidic applications in the fields of microbiology, nanomedicine and biotechnology where they are commonly used to sort and separate biomaterials. Magnetic particles [...]

Polymer Coated Nickel Ferrite Nanoparticles for High-gradient Magnetic Separation

Alvarez R., Trad T.M., Martirosyan K.S., University of Texas at Brownsville, US
Magnetic separation is a complex physical process in which magnetically susceptible composites is extracted from a liquid mixture using magnetic properties of the substances. Several separation procedures are developed based on magnetic susceptibility, magnetohydrostatic, magnetohydrodynamic [...]

Polymer Coated Nickel Ferrite Nanoparticles for High-gradient Magnetic Separation

Alvarez R., Trad T.M., Martirosyan K.S., University of Texas at Brownsville, US
Magnetic separation is a complex physical process in which magnetically susceptible composites is extracted from a liquid mixture using magnetic properties of the substances. Several separation procedures are developed based on magnetic susceptibility, magnetohydrostatic, magnetohydrodynamic [...]

Particle Transport in Magnetophoretic Microsystems

Furlani E.P., University at Buffalo, US
Magnetophoretic microsystems are finding increasing use in biotechnology and biomedicine for applications such as bioseparation and immuno-assays. These microfluidic systems typically contain embedded elements that produce a magnetic field distribution within a microchannel. This applied [...]

Analytical Model for Magnetic Particle Transport in a Magnetically Biased Microfluidic System

Furlani E.P., University at Buffalo, US
An analytical model is described for predicting the transport and capture of magnetic micro/nano-particles in a magnetophoretic microsystem that consists of an array of integrated soft-magnetic elements embedded beneath a microfluidic channel. The elements are [...]

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