Buckling of Dielectric Elastomeric Plates for Soft, Electrically Active Microfluidic Pumps

Citation:

Tavakol, B. ; Bozlar, M. ; Punct, C. ; Froehlicher, G. ; Stone, H. A. ; Aksay, I. A. ; Holmes, D. P. Buckling of Dielectric Elastomeric Plates for Soft, Electrically Active Microfluidic Pumps. Soft Matter 2014, 10, 4789.

Abstract:

Elastic instabilities, when properly implemented within soft, mechanical structures, can generate advanced functionality. In this work, we use the voltage-induced buckling of thin, flexible plates to pump fluids within a microfluidic channel. The soft electrodes that enable electrical actuation are compatible with fluids, and undergo large, reversible deformations. We quantified the onset of voltage-induced buckling, and measured the flow rate within the microchannel. This embeddable, flexible microfluidic pump will aid in the generation of new stand-alone microfluidic devices that require a tunable flow rate.

Last updated on 08/21/2017