• Title/Summary/Keyword: Nanoliter

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Nanoliter Reactor Arrays for Antibiotic Study

  • Park, Jin-Won
    • Bulletin of the Korean Chemical Society
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    • v.28 no.10
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    • pp.1709-1714
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    • 2007
  • It is demonstrated in this study that the nanoliter reactor arrays with an inkjet printing, can be used for high throughput screen of antibiotic function. As a model antibiotic, gramicidin was used in this study. The gramicidin embedded lipid vesicles were immobilized on the surface in the nanoliter reactor structure with control of the volume in the nanoliter reactor. By dispensing acidic drops into the reactor, the gramicidin function was monitored. The technique developed in this research also has a great potential to be used for discovery of drugs.

Micro-PIV measurement of internal flow in a micro droplet

  • KINOSHITA Haruyuki;KOBAYASHI Toshio;OSHIMA Marie
    • 한국가시화정보학회:학술대회논문집
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    • 2004.12a
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    • pp.141-145
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    • 2004
  • Visualization and PIV measurements of the symmetrical recirculation flow in a nanoliter-sized droplet have been performed using the micro PIV system. The airflow sweeps over the nanoliter-sized liquid droplet fixed in a microchannel and the frictional force drags the liquid on the round interface, which causes the symmetrical recirculation flow in the droplet. The internal recirculation flow in the droplet has been visualized and measured successfully. The results of micro PIV measurement show the maximum speed of the recirculation flow is up to 10 mm/s. The high-speed recirculation can enhance a stirring effect and generate strong shear in the droplet, resulting in acceleration of mixing.

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A Disposable BioChip for Single Cell Manipulation

  • Yoon, Euisik
    • Proceedings of the Korean Society Of Semiconductor Equipment Technology
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    • 2004.10a
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    • pp.1-15
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    • 2004
  • o Various microfluidic components including mixromixers and micropumps have been developed for disposable biochip applications. o Single cell capturing, positioning and nanoliter drug injection chip has been demostrated. o Multi-channel, two-dimensional micro-well array has been fabricated and cell capturing and specific reagent injection have been performed.

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Biochemical Reactions on a Microfluidic Chip Based on a Precise Fluidic Handling Method at the Nanoliter Scale

  • Lee, Chang-Soo;Lee, Sang-Ho;Kim, Yun-Gon;Choi, Chang-Hyoung;Kim, Yong-Kweon;Kim, Byung-Gee
    • Biotechnology and Bioprocess Engineering:BBE
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    • v.11 no.2
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    • pp.146-153
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    • 2006
  • A passive microfluidic delivery system using hydrophobic valving and pneumatic control was devised for microfluidic handling on a chip. The microfluidic metering, cutting, transport, and merging of two liquids on the chip were correctly performed. The error range of the accuracy of microfluid metering was below 4% on a 20 nL scale, which showed that microfluid was easily manipulated with the desired volume on a chip. For a study of the feasibility of biochemical reactions on the chip, a single enzymatic reaction, such as ${\beta}-galactosidase$ reaction, was performed. The detection limit of the substrate, i.e. fluorescein $di-{\beta}-galactopyranoside$ (FDG) of the ${\beta}-galactosidase$ (6.7 fM), was about 76 pM. Additionally, multiple biochemical reactions such as in vitro protein synthesis of enhanced green fluorescence protein (EGFP) were successfully demonstrated at the nanoliter scale, which suggests that our microfluidic chip can be applied not only to miniaturization of various biochemical reactions, but also to development of the microfluidic biochemical reaction system requiring a precise nano-scale control.

Micro-particles in a Nanoliter Droplet Dispensed by a Pneumatic Dispensing System and Its Measurement (공압 디스펜싱 시스템을 이용한 나노리터 액적에 포함된 미세 입자의 분주 및 측정)

  • Lee, Sang-Min;Kim, Joon-Won
    • Journal of the Korean Society for Precision Engineering
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    • v.29 no.8
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    • pp.913-919
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    • 2012
  • This paper presents results for dispensing and measuring micro-particles using a pneumatic dispensing system. Particle-suspended liquid droplets were dispensed and analyzed quantitatively at various particle concentrations and applied pressures. By using a developed experimental setup, the number of particles and the particle volume ratio in sequentially dispensed droplets were measured. Hydrophilic and hydrophobic surfaces were tested to find a suitable surface for counting the number of particle. It was confirmed that the dispensed particles concentrated into the center of the droplet on the smooth CD surface after evaporation of liquid. As the applied positive pressure increased, the number of particles per droplet increased consistently and the volume fraction of particles remained constant.

Simple and Highly Efficient Droplet Merging Method Using a Microfluidic Device (미세유체소자를 이용한 간단하고 효율적인 액적의 병합)

  • Jin, Byung-Ju;Kim, Young-Won;Yoo, Jung-Yul
    • Transactions of the Korean Society of Mechanical Engineers B
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    • v.33 no.3
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    • pp.178-185
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    • 2009
  • Simple and highly efficient droplet merging method is proposed, which enables two nanoliter or picoliter droplets to merge regularly in a straight microchannel. Using a cross channel with inflows of one oil phase through the main channel and two water phases through the side channels, two droplets of different sizes can be generated alternatingly in accordance with flow rate difference of the water phases. It is shown that for a fixed oil phase flow rate, the flow rate of one water phase required for alternating droplet generation increases linearly with the flow rate of another water phase. By this method, the droplets are merged with 100 % efficiency without any additional driving forces.

Simple and Highly Efficient Droplet Merging Method using Viscosity Difference (점도 차이를 이용한 간단하고 효율적인 액적의 병합 방법)

  • Jin, Byung-Ju;Kim, Young-Won;Yoo, Jung-Yul
    • Proceedings of the KSME Conference
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    • 2008.11a
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    • pp.1752-1757
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    • 2008
  • Simple and highly efficient droplet merging method is proposed, which enables two nanoliter or picoliter droplets to merge regularly in a straight microchannel. We observe that two droplets of the same size but of different viscosities are merged by velocity difference induced as they are transported with the carrier fluid. To make viscosity difference, the mass ratio of water and glycerol is varied. Two droplets of the same size or of different sizes are generated alternatingly in the cross channel by controlling flowrates. This droplet merging method can be used to mix or encapsulate one target sample with another material, so that it can be applied to cell lysis, particle synthesis, drug discovery, hydrogel-bead production, and so on.

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