Issue 15, 2014

Focusing of sub-micrometer particles and bacteria enabled by two-dimensional acoustophoresis

Abstract

Handling of sub-micrometer bioparticles such as bacteria are becoming increasingly important in the biomedical field and in environmental and food analysis. As a result, there is an increased need for less labor-intensive and time-consuming handling methods. Here, an acoustophoresis-based microfluidic chip that uses ultrasound to focus sub-micrometer particles and bacteria, is presented. The ability to focus sub-micrometer bioparticles in a standing one-dimensional acoustic wave is generally limited by the acoustic-streaming-induced drag force, which becomes increasingly significant the smaller the particles are. By using two-dimensional acoustic focusing, i.e. focusing of the sub-micrometer particles both horizontally and vertically in the cross section of a microchannel, the acoustic streaming velocity field can be altered to allow focusing. Here, the focusability of E. coli and polystyrene particles as small as 0.5 μm in diameter in microchannels of square or rectangular cross sections, is demonstrated. Numerical analysis was used to determine generic transverse particle trajectories in the channels, which revealed spiral-shaped trajectories of the sub-micrometer particles towards the center of the microchannel; this was also confirmed by experimental observations. The ability to focus and enrich bacteria and other sub-micrometer bioparticles using acoustophoresis opens the research field to new microbiological applications.

Graphical abstract: Focusing of sub-micrometer particles and bacteria enabled by two-dimensional acoustophoresis

Supplementary files

Article information

Article type
Paper
Submitted
14 Feb 2014
Accepted
20 May 2014
First published
20 May 2014

Lab Chip, 2014,14, 2791-2799

Author version available

Focusing of sub-micrometer particles and bacteria enabled by two-dimensional acoustophoresis

M. Antfolk, P. B. Muller, P. Augustsson, H. Bruus and T. Laurell, Lab Chip, 2014, 14, 2791 DOI: 10.1039/C4LC00202D

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