Inertial particle microfluidics is a new and exciting technology with potential for commercial applications of analysis and separation of particles, such as sepsis detection and isolation of circul
Microfluidic systems allow precise control and manipulation of geometrically constrained liquids to a small scale and underpin Lab-on-a-Chip applications.
People’s teeth-chattering experiences in the dentist’s chair could be improved by fresh insights into how tiny, powerful bubbles are formed by ultra-fast vibrations, a study led by the School of Engineering suggests.