Acoustofluidic waveguides for localized control of acoustic wavefront in microfluidics
Acoustofluidic waveguides for localized control of acoustic wavefront in microfluidics
The precise manipulation of acoustic fields in microfluidics is of critical importance for the realization of many biomedical applications. Despite the tremendous efforts devoted to the field of acoustofluidics during recent years, dexterous control, with an arbitrary and complex acoustic wavefront, in a prescribed, microscale region is still out of reach. Here, we introduce the concept of acoustofluidic waveguide, a three-dimensional compact configuration that is capable of locally guiding acoustic waves into a fluidic environment. Through comprehensive numerical simulations, we revealed the possibility of forming complex field patterns with defined pressure nodes within a highly localized, pre-determined region inside the microfluidic chamber. We also demonstrated the tunability of the acoustic field profile through controlling the size and shape of the waveguide geometry, as well as the operational frequency of the acoustic wave. The feasibility of the waveguide concept was experimentally verified via microparticle trapping and patterning. Our acoustofluidic waveguiding structures can be readily integrated with other microfluidic configurations and can be further designed into more complex types of passive acoustofluidic devices. The waveguide platform provides a promising alternative to current acoustic manipulation techniques and is useful in many applications such as single-cell analysis, point-of-care diagnostics, and studies of cell–cell interactions.
Acoustofluidics, Manipulation, Patterning, Waveguides
Bian, Yusheng
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Guo, Feng
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Yang, Shujie
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Mao, Zhangming
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Bachman, Hunter
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Tang, Shi Yang
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Ren, Liqiang
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Zhang, Bin
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Gong, Jianying
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Guo, Xiasheng
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Huang, Tony Jun
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1 August 2017
Bian, Yusheng
2852500e-d92f-43af-95cd-fb888fed219f
Guo, Feng
fa0bfec2-e595-4fab-8958-efeb6a631622
Yang, Shujie
4eb9123c-955c-48e8-b8b3-a4b3109bfc6c
Mao, Zhangming
6fc821cf-1ca5-4b6c-90b7-b56903ef3cb2
Bachman, Hunter
dca94582-6df6-4181-aa60-3094d797344f
Tang, Shi Yang
1d0f15c6-2a3e-4bad-a3d8-fc267db93ed4
Ren, Liqiang
3724d703-bb3a-46c9-9635-0f02b2747c02
Zhang, Bin
46bab9b1-ab53-4714-bdea-e40be59ed7c4
Gong, Jianying
f70f0cff-d47a-45f4-8569-dcbf11d4cdfe
Guo, Xiasheng
7ee3a0f0-61d0-41dc-aff4-b8ff650dd0da
Huang, Tony Jun
d380fbd6-4484-46b2-96f9-6cfec83ecae6
Bian, Yusheng, Guo, Feng, Yang, Shujie, Mao, Zhangming, Bachman, Hunter, Tang, Shi Yang, Ren, Liqiang, Zhang, Bin, Gong, Jianying, Guo, Xiasheng and Huang, Tony Jun
(2017)
Acoustofluidic waveguides for localized control of acoustic wavefront in microfluidics.
Microfluidics and Nanofluidics, 21 (8), [132].
(doi:10.1007/s10404-017-1971-y).
Abstract
The precise manipulation of acoustic fields in microfluidics is of critical importance for the realization of many biomedical applications. Despite the tremendous efforts devoted to the field of acoustofluidics during recent years, dexterous control, with an arbitrary and complex acoustic wavefront, in a prescribed, microscale region is still out of reach. Here, we introduce the concept of acoustofluidic waveguide, a three-dimensional compact configuration that is capable of locally guiding acoustic waves into a fluidic environment. Through comprehensive numerical simulations, we revealed the possibility of forming complex field patterns with defined pressure nodes within a highly localized, pre-determined region inside the microfluidic chamber. We also demonstrated the tunability of the acoustic field profile through controlling the size and shape of the waveguide geometry, as well as the operational frequency of the acoustic wave. The feasibility of the waveguide concept was experimentally verified via microparticle trapping and patterning. Our acoustofluidic waveguiding structures can be readily integrated with other microfluidic configurations and can be further designed into more complex types of passive acoustofluidic devices. The waveguide platform provides a promising alternative to current acoustic manipulation techniques and is useful in many applications such as single-cell analysis, point-of-care diagnostics, and studies of cell–cell interactions.
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More information
Published date: 1 August 2017
Additional Information:
Funding Information:
We thank Dr. Wu Liu, Dr. Peng Li, Dr. Po-Hsun Huang, Dr. Yi Zhang, Dr. Marten Darmawan, Dr. Yuliang Xie, Chungyu Chan, Mengxi Wu, and Peiran Zhang for fruitful discussions. The authors gratefully acknowledge financial support from the National Institutes of Health (R01 GM112048 and R33 EB019785) and the National Science Foundation (IIP-1534645 and IDBR-1455658). Components of this work were conducted at the Penn State node of the NSF-funded National Nanotechnology Infrastructure Network. The authors also acknowledge the Research Computing and Cyberinfrastructure Unit of Information Technology Services at The Pennsylvania State University for providing advanced computing resources and services that have contributed to the research results reported in this article.
Publisher Copyright:
© 2017, Springer-Verlag GmbH Germany.
Keywords:
Acoustofluidics, Manipulation, Patterning, Waveguides
Identifiers
Local EPrints ID: 481685
URI: http://eprints.soton.ac.uk/id/eprint/481685
ISSN: 1613-4982
PURE UUID: 8bc8ea0a-9df0-4cf9-8a17-67426b073697
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Date deposited: 06 Sep 2023 16:48
Last modified: 18 Mar 2024 04:13
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Contributors
Author:
Yusheng Bian
Author:
Feng Guo
Author:
Shujie Yang
Author:
Zhangming Mao
Author:
Hunter Bachman
Author:
Shi Yang Tang
Author:
Liqiang Ren
Author:
Bin Zhang
Author:
Jianying Gong
Author:
Xiasheng Guo
Author:
Tony Jun Huang
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