Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin Oxide

Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin Oxide

In order to blend the liquid in the microfluidic chip adequately, this paper presented a novel mixing scheme in which the species streams was mixed via the application of Lorenz chaotic system algorithm to three pair of parallel electrodes mounted on the surfaces of the mixing chamber to produces ch...

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Main Authors: Lv Tianyuan, Yang Ning, Zuo Zhiyu, Guo Jianjiang, Huang Hu
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:MATEC Web of Conferences
Subjects:
Microfluidic chip
fluid chaotic mixing
chaotic electric fields
indium tin oxide
Online Access:https://doi.org/10.1051/matecconf/201710003037
id doaj-7b71471b9d7f41779f6275b99171107d
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spelling doaj-7b71471b9d7f41779f6275b99171107d2021-02-02T02:24:27ZengEDP SciencesMATEC Web of Conferences2261-236X2017-01-011000303710.1051/matecconf/201710003037matecconf_gcmm2017_03037Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin OxideLv Tianyuan0Yang NingZuo Zhiyu1Guo Jianjiang2Huang Hu3Institute of Agricultural Engineering, Jiangsu UniversityInstitute of Agricultural Engineering, Jiangsu UniversitySchool of Electrical and Information Engineering, Jiangsu UniversityDepartment of Biomedical Engineering, University of MinnesotaIn order to blend the liquid in the microfluidic chip adequately, this paper presented a novel mixing scheme in which the species streams was mixed via the application of Lorenz chaotic system algorithm to three pair of parallel electrodes mounted on the surfaces of the mixing chamber to produces chaotic electric fields. To select the better microelectrode arrays, the paper also discussed the advantages of the indium tin oxide (ITO) materials and used ITO to design the microelectrode array. Finally, simulations of the mixing process under the control of the proposed chaotic electric fields are performed. Analysis result shows that the correlation coefficient between the largest Lyapunov exponents on Lorenz chaotic system and chaotic flow behavior is 0.72 which shows a better synchronism, and it also proved that ITO is a better material to fabricate the microelectrode arrays.https://doi.org/10.1051/matecconf/201710003037Microfluidic chipfluid chaotic mixingchaotic electric fieldsindium tin oxide
collection DOAJ
language English
format Article
sources DOAJ
author Lv Tianyuan
Yang Ning
Zuo Zhiyu
Guo Jianjiang
Huang Hu
spellingShingle Lv Tianyuan
Yang Ning
Zuo Zhiyu
Guo Jianjiang
Huang Hu
Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin Oxide
MATEC Web of Conferences
Microfluidic chip
fluid chaotic mixing
chaotic electric fields
indium tin oxide
author_facet Lv Tianyuan
Yang Ning
Zuo Zhiyu
Guo Jianjiang
Huang Hu
author_sort Lv Tianyuan
title Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin Oxide
title_short Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin Oxide
title_full Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin Oxide
title_fullStr Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin Oxide
title_full_unstemmed Electrokinetically Control Flow Mixing in Microfluidic Chip Utilizing Microelectrode Based on Indium Tin Oxide
title_sort electrokinetically control flow mixing in microfluidic chip utilizing microelectrode based on indium tin oxide
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2017-01-01
description In order to blend the liquid in the microfluidic chip adequately, this paper presented a novel mixing scheme in which the species streams was mixed via the application of Lorenz chaotic system algorithm to three pair of parallel electrodes mounted on the surfaces of the mixing chamber to produces chaotic electric fields. To select the better microelectrode arrays, the paper also discussed the advantages of the indium tin oxide (ITO) materials and used ITO to design the microelectrode array. Finally, simulations of the mixing process under the control of the proposed chaotic electric fields are performed. Analysis result shows that the correlation coefficient between the largest Lyapunov exponents on Lorenz chaotic system and chaotic flow behavior is 0.72 which shows a better synchronism, and it also proved that ITO is a better material to fabricate the microelectrode arrays.
topic Microfluidic chip
fluid chaotic mixing
chaotic electric fields
indium tin oxide
url https://doi.org/10.1051/matecconf/201710003037
work_keys_str_mv AT lvtianyuan electrokineticallycontrolflowmixinginmicrofluidicchiputilizingmicroelectrodebasedonindiumtinoxide
AT yangning electrokineticallycontrolflowmixinginmicrofluidicchiputilizingmicroelectrodebasedonindiumtinoxide
AT zuozhiyu electrokineticallycontrolflowmixinginmicrofluidicchiputilizingmicroelectrodebasedonindiumtinoxide
AT guojianjiang electrokineticallycontrolflowmixinginmicrofluidicchiputilizingmicroelectrodebasedonindiumtinoxide
AT huanghu electrokineticallycontrolflowmixinginmicrofluidicchiputilizingmicroelectrodebasedonindiumtinoxide
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