Tiny, portable 'laboratories' sort germs using electricity

Pathogens have distinct electrical charges, shapes and sizes. Measuring how quickly they move through an electric field can help researchers separate different species in a sample in minutes.

An illustration of a microfluidic device with red and blue channels
Microfluidics makes use of tiny channels (red and blue) to speed up analyses of biomolecules, such as DNA and proteins.
(Image credit: Thom Leach/Science Photo Library via Getty Images)

When you think of electric fields, you likely think of electricity — the stuff that makes modern life possible by powering everything from household appliances to cellphones. Researchers have been studying the principles of electricity since the 1600s. Benjamin Franklin, famous for his kite experiment, demonstrated that lightning was indeed electrical.

Electricity has also enabled major advances in biology. A technique called electrophoresis allows scientists to analyze the molecules of life — DNA and proteins — by separating them by their electrical charge. Electrophoresis is not only commonly taught in high school biology, but it's also a workhorse of many clinical and research laboratories, including mine.

Blanca H. Lapizco-Encinas
Professor of Biomedical Engineering, Rochester Institute of Technology

Dr. Lapizco-Encinas’s research interests are in the multidisciplinary area of microfluidics. Her current research projects deal with the application of dielectrophoresis for the manipulation, concentration and detection of a wide array of bioparticles.