Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation
Microfluidic manipulation has been widely applied in bio-chemical research and applications, including bacteria/cell/protein mixing, separation, focusing, concentration, and trapping. One of the current severe challenges of this technique is to manipulate particles smaller than micrometer scale. In...
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sg-ntu-dr.10356-1717022023-11-10T15:41:13Z Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation Zhang, Boran Wu, Wenshuai Zhao, Qianbin Yan, Sheng School of Electrical and Electronic Engineering Engineering::Electrical and electronic engineering Microfluidics Flow Microfluidic manipulation has been widely applied in bio-chemical research and applications, including bacteria/cell/protein mixing, separation, focusing, concentration, and trapping. One of the current severe challenges of this technique is to manipulate particles smaller than micrometer scale. In addition to multi-physical assists like acoustic and electrical fields, optimization of a structural design is a promising way to improve the functional capability of a microchannel. In our recent work, we built a robust and versatile numerical simulation model, validated with experiments, to reveal the mechanism of inertial microfluidic particle focusing within the double layered microchannel. In this study, a comprehensive investigation on the (geometrical and dimensional) optimization was further conducted with various numerical case studies. Based on the results, the fundamentals of the double layered microchannel with grooves were deeply revealed. In detail, the effects of microchannel geometric characteristics were discussed, including aspect ratio, groove curve radius, and groove spacing. In addition, an optimization strategy of geometrical and dimensional design was proposed to deeply exploit the manipulating potential of the microchannel. Based on the simulating calculation, the proposed optimized design of microchannel can remarkably improve the manipulating performance breaking through the manipulating limitation of manipulatable microparticle size, from microscale (4-10 μm) into nanoscale (500-800 nm), compared with the conventional microchannel. Published version This research work was supported by Guangdong Basic and Applied Basic Research Foundation (No. 2021A1515110277), Zhujiang Talent Program (No. 2021QN02Y387), the Shenzhen Natural Science Fund (20200811205344001), the Natural Science Foundation of Tianjin of China (No. S21DYZD5171), and the Natural Science Foundation of Hebei Province of China (No. H2022202007). 2023-11-06T01:56:06Z 2023-11-06T01:56:06Z 2023 Journal Article Zhang, B., Wu, W., Zhao, Q. & Yan, S. (2023). Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation. Physics of Fluids, 35(6), 062009-. https://dx.doi.org/10.1063/5.0152929 1070-6631 https://hdl.handle.net/10356/171702 10.1063/5.0152929 2-s2.0-85163687344 6 35 062009 en Physics of Fluids © 2023 The Author(s). All rights reserved. Published under an exclusive license by AIP Publishing. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1063/5.0152929 or URL link. application/pdf |
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Engineering::Electrical and electronic engineering Microfluidics Flow Zhang, Boran Wu, Wenshuai Zhao, Qianbin Yan, Sheng Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation |
| description |
Microfluidic manipulation has been widely applied in bio-chemical research and applications, including bacteria/cell/protein mixing, separation, focusing, concentration, and trapping. One of the current severe challenges of this technique is to manipulate particles smaller than micrometer scale. In addition to multi-physical assists like acoustic and electrical fields, optimization of a structural design is a promising way to improve the functional capability of a microchannel. In our recent work, we built a robust and versatile numerical simulation model, validated with experiments, to reveal the mechanism of inertial microfluidic particle focusing within the double layered microchannel. In this study, a comprehensive investigation on the (geometrical and dimensional) optimization was further conducted with various numerical case studies. Based on the results, the fundamentals of the double layered microchannel with grooves were deeply revealed. In detail, the effects of microchannel geometric characteristics were discussed, including aspect ratio, groove curve radius, and groove spacing. In addition, an optimization strategy of geometrical and dimensional design was proposed to deeply exploit the manipulating potential of the microchannel. Based on the simulating calculation, the proposed optimized design of microchannel can remarkably improve the manipulating performance breaking through the manipulating limitation of manipulatable microparticle size, from microscale (4-10 μm) into nanoscale (500-800 nm), compared with the conventional microchannel. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhang, Boran Wu, Wenshuai Zhao, Qianbin Yan, Sheng |
| format |
Article |
| author |
Zhang, Boran Wu, Wenshuai Zhao, Qianbin Yan, Sheng |
| author_sort |
Zhang, Boran |
| title |
Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation |
| title_short |
Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation |
| title_full |
Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation |
| title_fullStr |
Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation |
| title_full_unstemmed |
Geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation |
| title_sort |
geometric optimization of double layered microchannel with grooves array for enabling nanoparticle manipulation |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171702 |
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1783955636528087040 |