Researchers at the ICMAB and the UAB (Barcelona, Spain) shows the existence of two different magnetophoretic regimes: a fast regime (cooperative magnetophoresis), and a slow (non-cooperative magnetophoresis).
Researchers at Centro de Fisica of the Universidade do Minho (Braga, Portugal) have used Sepmag LAB precision magnetophoresis equipment to characterize the behaviour of magnetic nanoparticle suspensions throughout their synthesis process.
Unlike traditional biomagnetic separators, Sepmag precision magnetophoresis, magnetic separation systems are specifically designed so that all magnetic beads experience the same magnetic force, regardless of the distance to the magnetic ring. Homogeneous separation conditions eliminate the possible adverse effects that non-homogeneous separation may have on the variability of the end-product. Furthermore, scaling-up is straightforward and process revalidation becomes unnecessary.
Our magnetic separation product range includes the Stepmag, Sepmag Q and Sepmag LAB series, as well as the QCR monitoring system to control the process.
End-users often need to work with a wide range of volumes, starting with small tubes and increasing sample size. Stepmag scale-up systems take advantage of homogeneous magnetophoretical...
Magnetic separation enables to substitute filtration, centrifugation and separation techniques via a quick, efficient and clean process. At laboratory scale, a single magnet suffices to separate the magnetic beads in a 1 ml vial...
For volumes from 10 ml to 50 ml, the LAB series offers a combination of strong separation force and easy re-suspension, thanks to the uniformity of the magnetophoretic condition throughout the working volume.
In production runs, monitoring the process is a key to ensuring quality. Due to their specific magnetic design, the QCR hardware and software can be integrated in the SEPMAG systems, allowing a print-out copy of every single process...