Novel Characteristics of Multifunctional Fluid Filters Fabricated by High-Energy Synchrotron Radiation Lithography
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概要
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A new method using multifunctional fluid filters with through-capillary arrays for high throughput and large-scale integrated microfluidics is proposed. The method utilizes a liquid’s surface tension and fluid flows perpendicular to a substrate using a fluid filter. Utilizing this method, we can minimize the space consumption of microchannels, and enhance the flexibility of channel design, because these are not extant on the surface of substrates as in traditional microfluidics, but are through-capillary arrays passing through the substrates. In addition, the passive multifunctional characteristics of the fluid filter are favorable for the integration of microfluidics. Therefore, the integration number can be increased from the previous order of hundreds to thousands or more. We conducted a computational fluid dynamics (CFD) analysis to examine the feasibility of vertical fluid flow operation; the multifunctionality of the fluid filter as a microvalve, a microchannel and a micromixer was estimated. The fabrication of the fluid filter by deep X-ray lithography and the vertical fluid flow operation were successfully conducted and the high-throughput properties of the vertical fluid flow were demonstrated.
- 2006-09-15
著者
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MATSUI Katsuhiro
Graduate School of Engineering, University of Hyogo
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SAIKI Tsunemasa
Hyogo Prefectural Institute of Technology
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Negoro Seiji
Graduate School Of Engineering Univ. Of Hyogo
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Yokoyama Takuya
Fluent Asia Pacific Co. Ltd.
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Utsumi Yuichi
Laboratory Of Advanced Science And Technology For Industry
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Ukita Yoshiaki
Laboratory Of Advanced Science And Technology For Industry University Of Hyogo
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Fujiwara Kuniyo
Laboratory Of Advanced Science And Technology For Industry University Of Hyogo
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Asano Toshifumi
Laboratory Of Advanced Science And Technology For Industry University Of Hyogo
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Takeo Masahiro
Graduate School Of Engineering University Of Hyogo
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Utsumi Yuichi
Laboratory of Advanced Science and Technology for Industry, University of Hyogo, 3-1-2 Kouto, Kamigori, Ako-gun, Hyogo 678-1205, Japan
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Ukita Yosiaki
Laboratory of Advanced Science and Technology for Industry, University of Hyogo, 3-1-2 Kouto, Kamigori, Ako-gun, Hyogo 678-1205, Japan
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Takeo Masahiro
Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji, Hyogo 671-2201, Japan
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Yokoyama Takuya
Fluent Asia Pacific Co., Ltd., Pias Tower, 18F, 3-19-3 Toyosaki, Kita-ku, Osaka 531-0072, Japan
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Negoro Seiji
Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji, Hyogo 671-2201, Japan
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Matsui Katsuhiro
Graduate School of Engineering, University of Hyogo, 2167 Shosha, Himeji, Hyogo 671-2201, Japan
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Fujiwara Kuniyo
Laboratory of Advanced Science and Technology for Industry, University of Hyogo, 3-1-2 Kouto, Kamigori, Ako-gun, Hyogo 678-1205, Japan
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Ukita Yoshiaki
Laboratory of Advanced Science and Technology for Industry (LASTI), University of Hyogo, Kamigori, Hyogo 678-1205, Japan
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Saiki Tsunemasa
Hyogo Prefectural Institute of Technology, 3-1-12 Yukihara, Suma-ku, Kobe 654-0037, Japan
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Asano Toshifumi
Laboratory of Advanced Science and Technology for Industry, University of Hyogo, 3-1-2 Kouto, Kamigori, Ako-gun, Hyogo 678-1205, Japan
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