Preprint Article Version 1 This version is not peer-reviewed

Fluid Flow and Mixing Induced by AC Continuous Electrowetting of Liquid Metal Droplet

Version 1 : Received: 11 March 2017 / Approved: 13 March 2017 / Online: 13 March 2017 (07:58:09 CET)

A peer-reviewed article of this Preprint also exists.

Hu, Q.; Ren, Y.; Liu, W.; Chen, X.; Tao, Y.; Jiang, H. Fluid Flow and Mixing Induced by AC Continuous Electrowetting of Liquid Metal Droplet. Micromachines 2017, 8, 119. Hu, Q.; Ren, Y.; Liu, W.; Chen, X.; Tao, Y.; Jiang, H. Fluid Flow and Mixing Induced by AC Continuous Electrowetting of Liquid Metal Droplet. Micromachines 2017, 8, 119.

Journal reference: Micromachines 2017, 8, 119
DOI: 10.3390/mi8040119

Abstract

In this work, we proposed a novel design of microfluidic mixer utilizing the amplified Marangoni chaotic advection induced by AC continuous electrowetting of a metal droplet situated in electrolyte solution, due to the linear and quadratic voltage-dependence of flow velocity at small or large voltages, respectively. Unlike previous researchers exploiting the unidirectional surface stress with DC bias at droplet/medium interface for pumping of electrolyte where the resulting flow rate is linearly proportional to the field intensity, dominance of another kind of dipolar flow pattern caused by local Marangoni stress at the drop surface in sufficiently intense AC electric field is demonstrated by both theoretical analysis and experimental observation, which exhibits a quadratic growth trend as a function of the applied voltage. The dipolar shear stress merely appears at larger voltages and greatly enhances the mixing performance by inducing chaotic advection between the neighboring laminar flow. The mixer design developed herein, on the basis of amplified Marangoni chaotic advection around a liquid metal droplet at larger AC voltages, has great potential for chemical reaction and MEMS actuator applications, because of generating high-throughput and excellent mixing performance at the same time.

Subject Areas

Mixer; Marangoni chaotic advection; continuous electrowetting; liquid metal droplet

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