dielectrowetting

Dielectrowetting is a wettability control phenomenon in which an applied electric field across a dielectric layer alters the contact angle of a liquid on a solid substrate. The effect arises from dielectric polarization of the liquid and the substrate, which generates Maxwell stresses at the solid–liquid interface. These stresses modify the interfacial tensions and can cause the droplet to spread, move, or change shape without the need for direct electrical contact with the liquid.

Typically, dielectrowetting uses alternating current fields to minimize electrochemical reactions at electrodes and to enable actuation

Applications of dielectrowetting are concentrated in digital microfluidics and lab-on-a-chip systems, where precise, low-power droplet manipulation

Advantages include compatibility with insulating liquids, potential for low-voltage operation when designed properly, and reduced electrode

See also: electrowetting on dielectrics, electrowetting, dielectrophoresis, microfluidics.