Lab-on-a-chip technology, which involves complete chemical laboratories the size of a chip, is on the rise. Many of these mini-laboratories are able to separate mixtures - of biological substances, for instance. This usually occurs with the aid of capillary electrophoresis; that is, a mixture is led through a thin tube over which a high voltage is applied. The voltage causes the components in the mixture to move through the tube. The size, shape and charge of the molecules affect the speed with which they move. The components that move the fastest are the first to reach the end of the tube and can be collected there - separately from the other molecules.

Dawid Zalewski has developed a new form of capillary electrophoresis that can separate substances continuously: synchronized continuous-flow zone electrophoresis. In a quarter of an hour this method can process around five microlitre of liquid. This does not sound like very much, but a regular capillary electrophoresis chip can only process a couple of hundred picolitre of liquid in a cycle. This tiny quantity is not a problem if, for example, you only want to show whether a certain substance is present in a mixture. But if you want to process the pure substance further, this is a fundamental limitation. Zalewski’s chip is not limited in this way and can process 25,000 times as much liquid as a normal chip in a single cycle, in a quarter of an hour.


http://www.physorg.com/news144677460.html