Physicists at the Hong Kong University of Science and Technology have used a poly-dimethylsiloxane-based conducting composite to add one or more pairs of parallel electrodes to a microfluidic device. The paired electrodes sit on either side of the flow channel and form a capacitor with the liquid being the dielectric material between them. When a droplet having a different dielectric constant is carried by the liquid through the capacitor, a signal is detected, the shape and amplitude of which vary with the droplet’s size and composition. Using a second capacitor reveals the droplet’s velocity. The scientists, led by Weijia Wen, also demonstrated that the droplets can be individually manipulated farther downstream. In the image, oil carries two kinds of droplets in from the left. Once detected and identified, a droplet is given an appropriate charge and subsequently deflected by high-voltage electrodes into its designated path. Here, dark-colored water droplets are...

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