Microchip Design and Experiment for Separation of Microbe from Continuous Sample Liquid Flow Using Optical Tweezers

Fumihito ARAP; Toshihiro SAKAMI; Akihiko ICHIKAWA; Toshio FUKUDA

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Microchip Design and Experiment for Separation of Microbe from Continuous Sample Liquid Flow Using Optical Tweezers

机译：使用光学镊子从连续样品液流中分离微生物的Microchip设计和实验

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It is important to separate a microorganism such as a microbe with high speed and high purity for examination of newly developed or discovered microbes. However, it is difficult and takes much time to separate a single target microbe. Here we designed a new separation chip, with which we can separate the target microbe from the sample liquid which can be supplied continuously. We integrated the laser manipulation and flow control in the microchannel for separation of the target. We fabricated a disposable separation chip by the silicone elastomer poly (dimethylsiloxane) (PDMS) and succeeded in separation of a microbe within 30 seconds.

机译：重要的是，为了检查新近开发或发现的微生物，以高速度和高纯度分离微生物例如微生物。然而，分离单个靶标微生物是困难的并且花费很多时间。在这里，我们设计了一种新的分离芯片，利用该芯片可以将目标微生物与可以连续供应的样品液体分离。我们将激光操纵和流量控制集成在微通道中以分离目标。我们用有机硅弹性体聚二甲基硅氧烷（PDMS）制成了一次性分离芯片，并在30秒内成功分离出微生物。

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来源
《JSME International Journal. Series C, Mechanical Systems, Machine Elements and Manufacturing》 |2004年第1期|p.268-274|共7页
作者
Fumihito ARAP; Toshihiro SAKAMI; Akihiko ICHIKAWA; Toshio FUKUDA;
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正文语种 eng
中图分类机械、仪表工业;机械学（机械设计基础理论）;
关键词
Optical Tweezers; Laser Manipulation; Separation; Disposable; μ-TAS; Lab-on-a-Chip; Microbe; Poly (dimethylsiloxane) (PDMS);

机译：镊子;激光操纵;分离;一次性使用;μ-TAS;芯片实验室;微生物;聚二甲基硅氧烷（PDMS）;

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1. Microchip Design and Experiment for Separation of Microbe from Continuous Sample Liquid Flow Using Optical Tweezers [J] . Fumihito ARAP, Toshihiro SAKAMI, Akihiko ICHIKAWA, JSME International Journal. Series C, Mechanical Systems, Machine Elements and Manufacturing . 2004,第1期

机译：使用光学镊子从连续样品液流中分离微生物的Microchip设计和实验
2. Advanced aerosol optical tweezers chamber design to facilitate phase-separation and equilibration timescale experiments on complex droplets [J] . Gorkowski Kyle, Beydoun Hassan, Aboff Mark, Aerosol Science and Technology: The Journal of the American Association for Aerosol Research . 2016,第10a12期

机译：先进的气溶胶光学镊子室设计，促进相分离和平衡时间尺度在复杂液滴上的实验
3. Design and Characterization of Poly(dimethylsiloxane)-Based Valves for Interfacing Continuous-Flow Sampling to Microchip Electrophoresis [J] . Michelle W. Li, Bryan H. Huynh, Matthew K. Hulvey, Analytical chemistry . 2006,第4期

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4. A hydrophobic ionic liquid compartmentalized sampling/labelling and its separation techniques in polydimethylsiloxane microchip capillary electrophoresis [C] . H. H. Quan, M. Li, Y. Huang World Congress on Biosensors . 2016

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5. Microchip liquid chromatography and capillary electrophoresis separations in multilayer microdevices [D] . Fuentes, Hernan Vicente 2007

机译：多层微器件中的Microchip液相色谱和毛细管电泳分离
6. Separation/preconcentration and determination of quercetin in food samples by dispersive liquid–liquid microextraction based on solidification of floating organic drop -flow injection spectrophotometry [O] . Tahereh Asadollahi, Shayessteh Dadfarnia, Ali Mohammad Haji Shabani, 2015

机译：悬浮有机滴流分光光度法凝固液-液微萃取分离/富集测定食品中的槲皮素
7. Development of melting device for continuous flow analysis of firn core samples -Separation of analysis sample liquid and waste liquid- [O] . 司馬遼太, 高田守昌, 上村靖司, 2016

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8. Design and Operating Characteristics of a CW (Continuous wave) Relevant Quasi-Optical Gyrotron with Variable Mirror Separation [R] . Fliflet, A. W., Hargreaves, T. A., Manheimer, W. M., 1989

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Microchip Design and Experiment for Separation of Microbe from Continuous Sample Liquid Flow Using Optical Tweezers

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