Magnetic-Field Mediated Active Propulsion of Ferrofluid Droplets on a Wire

Directed transport and control of droplets is essential for many modern technologies. Here, we propose an active control mode that combines corona discharge and contact electrification to efficiently drive the droplet or droplet group in a directed manner. In particular, we also implement a continuous coalescence of droplets, similar to dominoes. Moreover, due to the high adhesion effect caused by contact electrification, the droplet can stick on a slope without sliding down, even when the corona discharge is turned off. Interestingly, it can easily slide down when a conductor is nearby. Therefore, a droplet climbing, braking, and downhill system can be realized, and the gravitational potential energy stored by the droplet can be effectively regulated by the applied voltage. This work opens the possibility of droplet manipulation in modern applications such as miniaturized energy storage, biochemical medicine, and self-cleaning.

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Magnetic-Field Mediated Active Propulsion of Ferrofluid Droplets on a Wire

Cited by 3 publications

References 51 publications

Droplet manipulation in liquid flow using of magnetic micromotors for drug delivery and microfluidic systems

Droplet manipulation in liquid flow using of magnetic micromotors for drug delivery and microfluidic systems

Magnetically actuated droplet/marble transportation with tailored surface wettability

Droplet actuation by coupling corona discharge and contact electrification: Domino coalescence and uphill braking

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