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Issue
Korean Chemical Engineering Research,
Vol.48, No.5, 545-555, 2010
액적 기반의 미세유체 시스템의 현황
Droplet Based Microfluidic System
정재훈, 이창수
최근 액적 기반의 미세유체 시스템은 물리, 화학, 생물학등의 기초과학과 재료과학 분야까지 매우 폭넓게 활용되고 각광받고 있는 기술분야이다. 본 총설은 액적기반 미세유체 시스템의 미세유체 반응기 제작 기술, 액적 형성 원리, 액적 혼합 및 제어, 그리고 새로운 기능성 재료의 합성등의 폭넓은 응용분야에 관해 자세하게 소개하고자 한다. 더불어 액적기반 미세유체 시스템의 가장 큰 장점인 입자의 크기 조절 방법, 형태, 모양 및 구조의 제어 기술에 관해 논의하고자 한다.
Recently, droplet-based microfluidic systems are widely used in various areas ranging from fundamental science including chemistry, biology, and physics to material science and engineering. This article reviews recent development in the droplet based microfluidic system from basic fabrication of tiny device, principle of droplet formation, merging, mixing, control of droplets, and application for the synthesis of novel functional materials. We discuss strong advantages of the droplet based microfluidics in point of control of particle size, morphologies, shapes, and structures.
Keywords: Microfluidics; Droplets; Particles; Microfiber; Bioassay
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[Cited By]
  1. Kang SM, Choi CH, Hwang S, Jung JM, Lee CS, Korean Chemical Engineering Research, 50(4), 733, 2012
  2. Seo SW, Ko KY, Lee CS, Kim IH, Korean Chemical Engineering Research, 51(1), 151, 2013
  3. Nam JO, Choi CH, Kim J, Kang SM, Lee CS, Korean Chemical Engineering Research, 51(5), 597, 2013
  4. Ko KY, Kim IH, Korean Chemical Engineering Research, 51(6), 760, 2013
  5. Song YS, Lee CS, Korean Chemical Engineering Research, 52(5), 632, 2014
  6. Noh YM, Jin SH, Jeong SG, Kim NY, Rho C, Lee CS, Korean Chemical Engineering Research, 53(4), 472, 2015
  7. Choi CY, Im DJ, Korean Chemical Engineering Research, 54(4), 568, 2016
  8. Im DJ, Korean Chemical Engineering Research, 56(1), 79, 2018
  9. Bae SJ, Im DJ, Korean Chemical Engineering Research, 57(6), 898, 2019
  10. Bae SJ, Im DJ, Korean Chemical Engineering Research, 58(3), 450, 2020
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