Issue 14, 2015

Microfluidic plug steering using surface acoustic waves

Abstract

Digital microfluidic systems, in which isolated droplets are dispersed in a carrier medium, offer a method to study biological assays and chemical reactions highly efficiently. However, it's challenging to manipulate these droplets in closed microchannel devices. Here, we present a method to selectively steer plugs (droplets with diameters larger than the channel's width) at a specially designed Y-junction within a microfluidic chip. The method makes use of surface acoustic waves (SAWs) impinging on a multiphase interface in which an acoustic contrast is present. As a result, the liquid–liquid interface is subjected to acoustic radiation forces. These forces are exploited to steer plugs into selected branches of the Y-junction. Furthermore, the input power can be finely tuned to split a plug into two uneven plugs. The steering of plugs as a whole, based on plug volume and velocity is thoroughly characterized. The results indicate that there is a threshold plug volume after which the steering requires elevated electrical energy input. This plug steering method can easily be integrated to existing lab-on-a-chip devices and it offers a robust and active plug manipulation technique in closed microchannels.

Graphical abstract: Microfluidic plug steering using surface acoustic waves

Supplementary files

Article information

Article type
Paper
Submitted
24 Apr 2015
Accepted
05 Jun 2015
First published
16 Jun 2015

Lab Chip, 2015,15, 3030-3038

Microfluidic plug steering using surface acoustic waves

M. Sesen, T. Alan and A. Neild, Lab Chip, 2015, 15, 3030 DOI: 10.1039/C5LC00468C

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