When you consider that almost every single cell in your body has more than a meter of DNA coiled up inside its nucleus, it seems like it should be pretty easy to get some to study. But with all the ...

Traditional magnetic separators, however, present a challenge: they generate a magnetic force that is very high near the side of the vessel closest to the magnet and decreases rapidly with distance.

Magnetic beads (or superparamagnetic particles) can be used for the isolation and purification of cells, nucleic acids, proteins or any other biomolecules. The surface of magnetic beads can be coated ...

Magnetic separation techniques have long been at the forefront of mineral processing, offering a robust method for recovering valuable magnetic minerals from complex ore matrices. The process ...

Magnetic bead separation is widely used in the life sciences field. From cell sorting to molecular diagnostics, this technology can be used with a wide range of volumes, from a few nanoliters in ...

Magnetic separation systems began appearing in scrap yards after World War II when heavy duty shredders used for grinding automobiles started to pop up across the United States. The early magnetic ...

The magnetic power to attract—and repel—is used in several different ways to sort and separate materials within recycling streams. Magnets can be seen everywhere across the recycling spectrum. From ...

Possibly the only good thing to come out of the Deepwater Horizon disaster is the subsequent increase in research into finding more effective ways to cle_n up oil spills, including such initiatives as ...

New Method for High-Efficiency Capture and Label-Free Release of High-Purity Target Cell Populations Cell-based therapeutics, such as CAR-T cancer therapies, are poised to transform 21st century ...