The field of microfluidics has been intensely investigated for nearly two decades, being traditionally explored within fixed geometries of continuous polymer or glass microchannels. None of the prior ...

Graduate students Mingde ‘Jack’ Zheng and Joseph Sherba have developed a novel, microfluidic platform for monitoring electroporation and molecular delivery at the single cell-level as part of a NSF ...

Novel techniques, automated machines, sophisticated synthetic and bioprospected polymerases, and developments in symbiotic sequencing technologies have transformed PCR into a multifaceted, adaptable ...

Microfluidics is an interdisciplinary field that combines principles from physics, chemistry, and engineering to create devices that can process and analyze minuscule volumes of liquids. Often, ...

Monitoring cancer cells effectively can help physicians with treatment and management, thus reducing cancer-related mortality. Can non-invasive technologies pave the way for improved monitoring to ...

UC engineering researchers create tiny pools without walls with programmable microfluidic systems. Microfluidic devices typically depend upon electrokinetic or traditional pressure methods to move ...