There are, however, several major differences between magnetic bead technologies and other conventional biotech techniques that can pose some challenges for new users. Even though many stages of ...

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 ...

DURHAM, N.C. -- A magnetic separation technique developed by researchers at Duke University's Pratt School of Engineering and Purdue University makes it relatively simple to sort through beads ...

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.

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 ...

Understanding the process and anticipating the problems can help ensure successful separations. The use of magnetic beads for capturing biological molecules has become commonplace in the life sciences ...

Magnetic techniques encompass a broad class of experimental and analytical methods that exploit magnetic fields or magnetic properties of materials to probe, manipulate, or measure physical, chemical, ...

Using a non-traditional, micro-organism separation method, researchers at Rochester Institute of Technology discovered a faster technique that can be used to distinguish cells that are resistant to ...

Numerous test-and-measurement applications require a high-frequency magnetic field. Oftentimes, high field strength is needed. Examples of such applications include bio-medicine research on the effect ...

Cell separation refers to processes that are used to separate a single cell – or a population of cells – from a heterogenous cell mixture. Cell separation techniques are important across all major ...

Coming soon to a lab tabletop near you: a method of magneto-thermal imaging that offers nanoscale and picosecond resolution previously available only in synchrotron facilities.