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An integrated platform for metamaterial-based sensing and surface acoustic wave-based acoustofluidics utilising circular interdigital transducers

An integrated platform for metamaterial-based sensing and surface acoustic wave-based acoustofluidics utilising circular interdigital transducers
An integrated platform for metamaterial-based sensing and surface acoustic wave-based acoustofluidics utilising circular interdigital transducers
A key challenge in developing lab-on-a-chip devices is integrating various functionalities such as liquid manipulation and sensing on a single platform, which conventionally requires different technologies to be separately optimized.A key challenge in developing lab-on-a-chip devices is integrating various functionalities such as liquid manipulation and sensing on a single platform, which conventionally requires different technologies to be separately optimized. In this paper, we design circular or ring-shape interdigitated structures on a piezoelectric substrate that can be used for both sensing and liquid manipulation for point-of-care applications. We present acoustofluidic functionalities including streaming, jetting and nebulisation using the circular surface acoustic wave device to demonstrate the acoustofluidic manipulation capabilities of the actuator. We then optimise the design inspired by the double split-ring resonator geometry so that the device geometry can be used as a high performance wireless and electromagnetic sensor. We present the wireless-sensing capabilities of the device with case studies in monitoring glucose concentration and the fermentation process of yeast cells.
Zahertar, Shahrzad
9e9db9c7-0e1e-4d50-99b8-af23e09ab6ae
Torun, Hamdi
6635ce04-57c2-4847-9cce-67ce2425d32b
Tao, Ran
08d40ff6-99d4-4017-9f02-a789ec813496
Canyelles-Pericas, Pep
d6faf0b3-6416-4479-b0ae-6520e48ee4da
Luo, Jingting
402dc9e0-81d7-49cc-b697-e3fbb2e8f760
Wu, Qiang
fad3844e-9eba-496c-876d-3bbc9ee4a689
Fu, Yong-Qing
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Zahertar, Shahrzad
9e9db9c7-0e1e-4d50-99b8-af23e09ab6ae
Torun, Hamdi
6635ce04-57c2-4847-9cce-67ce2425d32b
Tao, Ran
08d40ff6-99d4-4017-9f02-a789ec813496
Canyelles-Pericas, Pep
d6faf0b3-6416-4479-b0ae-6520e48ee4da
Luo, Jingting
402dc9e0-81d7-49cc-b697-e3fbb2e8f760
Wu, Qiang
fad3844e-9eba-496c-876d-3bbc9ee4a689
Fu, Yong-Qing
33ef6026-25d5-472b-8ab5-861afb123abd

Zahertar, Shahrzad, Torun, Hamdi, Tao, Ran, Canyelles-Pericas, Pep, Luo, Jingting, Wu, Qiang and Fu, Yong-Qing (2022) An integrated platform for metamaterial-based sensing and surface acoustic wave-based acoustofluidics utilising circular interdigital transducers. Sensors & Diagnostics. (doi:10.1039/d1sd00050k).

Record type: Article

Abstract

A key challenge in developing lab-on-a-chip devices is integrating various functionalities such as liquid manipulation and sensing on a single platform, which conventionally requires different technologies to be separately optimized.A key challenge in developing lab-on-a-chip devices is integrating various functionalities such as liquid manipulation and sensing on a single platform, which conventionally requires different technologies to be separately optimized. In this paper, we design circular or ring-shape interdigitated structures on a piezoelectric substrate that can be used for both sensing and liquid manipulation for point-of-care applications. We present acoustofluidic functionalities including streaming, jetting and nebulisation using the circular surface acoustic wave device to demonstrate the acoustofluidic manipulation capabilities of the actuator. We then optimise the design inspired by the double split-ring resonator geometry so that the device geometry can be used as a high performance wireless and electromagnetic sensor. We present the wireless-sensing capabilities of the device with case studies in monitoring glucose concentration and the fermentation process of yeast cells.

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Accepted/In Press date: 29 January 2022
e-pub ahead of print date: 31 January 2022
Published date: 31 January 2022
Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 455889
URI: http://eprints.soton.ac.uk/id/eprint/455889
DOI: doi:10.1039/d1sd00050k
PURE UUID: 6945354c-890b-4acf-a896-e1d71142020f
ORCID for Shahrzad Zahertar: ORCID iD orcid.org/0000-0001-6988-2345

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Date deposited: 07 Apr 2022 16:47
Last modified: 17 Mar 2024 04:08

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Contributors

Author: Shahrzad Zahertar ORCID iD
Author: Hamdi Torun
Author: Ran Tao
Author: Pep Canyelles-Pericas
Author: Jingting Luo
Author: Qiang Wu
Author: Yong-Qing Fu

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