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.
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.
Since Chinese and Greeks discovered the properties of loadstone, magnetism was used in navigation compasses. However, little understanding on the working principle was known. The landmark on scientific magnetism is ...
The new stepmag Scale-up systems take advantage of the reproducible Sepmag technology in which magnetophoretical conditions anywhere inside the system ring are homogeneous. End-users often wish ...
Recently, a novel nano-coating technology has been developed based on a proprietary protein cushion with self-assembling properties that can be genetically fused to ...
Sepmag systems can bypass centrifugation, clarification and filtration steps, making it possible to purify directly from crude extracts and raw suspensions