Issue 20, 2019

Contactless, programmable acoustofluidic manipulation of objects on water

Abstract

Contact-free manipulation of small objects (e.g., cells, tissues, and droplets) using acoustic waves eliminates physical contact with structures and undesired surface adsorption. Pioneering acoustic-based, contact-free manipulation techniques (e.g., acoustic levitation) enable programmable manipulation but are limited by evaporation, bulky transducers, and inefficient acoustic coupling in air. Herein, we report an acoustofluidic mechanism for the contactless manipulation of small objects on water. A hollow-square-shaped interdigital transducer (IDT) is fabricated on lithium niobate (LiNbO3), immersed in water and used as a sound source to generate acoustic waves and as a micropump to pump fluid in the ±x and ±y orthogonal directions. As a result, objects which float adjacent to the excited IDT can be pushed unidirectionally (horizontally) in ±x and ±y following the directed acoustic wave propagation. A fluidic processor was developed by patterning IDT units in a 6-by-6 array. We demonstrate contactless, programmable manipulation on water of oil droplets and zebrafish larvae. This acoustofluidic-based manipulation opens avenues for the contactless, programmable processing of materials and small biosamples.

Graphical abstract: Contactless, programmable acoustofluidic manipulation of objects on water

Supplementary files

Article information

Article type
Paper
Submitted
16 May 2019
Accepted
30 Aug 2019
First published
11 Sep 2019

Lab Chip, 2019,19, 3397-3404

Author version available

Contactless, programmable acoustofluidic manipulation of objects on water

P. Zhang, C. Chen, F. Guo, J. Philippe, Y. Gu, Z. Tian, H. Bachman, L. Ren, S. Yang, Z. Zhong, P. Huang, N. Katsanis, K. Chakrabarty and T. J. Huang, Lab Chip, 2019, 19, 3397 DOI: 10.1039/C9LC00465C

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