Articles & Issues

Language: korean

Conflict of Interest: In relation to this article, we declare that there is no conflict of interest.

Publication history: Received August 27, 2013
Accepted September 25, 2013

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

All issues

액적 기반의 미세유체 시스템을 이용한 초고속 대용량 스크리닝

Droplet-based Microfluidic Device for High-throughput Screening

정헌호 노영무 장성찬 이창수^†

Heon-Ho Jeong Young-Moo Noh Sung-Chan Jang Chang-Soo Lee^†

충남대학교 화학공학과, 305-764 대전광역시 유성구 궁동 220

Department of Chemical Engineering, Chungnam National University, 220 Gung-dong, Yuseong-gu, Daejeon 305-764, Korea

rhadum@cnu.ac.kr

Korean Chemical Engineering Research, April 2014, 52(2), 141-153(13), 10.9713/kcer.2014.52.2.141 Epub 1 April 2014

Download PDF

Abstract

액적기반의 미세유체 시스템은 마이크로 시험관으로서 화학, 생물학 연구에 적용하기 위해 개발되었다. 미세유체 시스템에서 피코부피(picoliter)의 매우 작은 액적은 소형화된 시스템 내에서 잘 정형화 되고 구획화된 반응기로 제공되어 진다. 매우 작은 액적에서의 반응은 자동화된 초고속 대용량 스크리닝 시스템을 통하여 저가이면서 고효율적으로 수행될 수 있다. 본 총설에서는 액적 기반의 미세유체시스템의 기능들인 액적 형성, 정교한 액적 제어, 다양한 응용분야에 대해 소개하고자 한다. 또한 화학적, 생물학적 새로운 응용분야에 관해 알아보고, 기존의 방법과 비교하여 액적기반의 미세유체 시스템이 갖는 장점에 관해 논의하고자 한다.

Droplet based microfluidic systems have been developed for the application of biological and chemical research field. A picoliter droplet in microfluidic device provides a compartmentalized and well-defined reactor in miniaturized system. The microfluidic system with small droplets can reduce reagent cost and enhance efficiency through automated high-throughput screening system. In this review, we summarize the functionality of droplet based microfluidic system including droplet generation, precise droplet control, and various applications. In addition, this article reviews current applications in chemistry and biology, and discuss advantages of droplet based microfluidics compared with conventional manner.

Keywords

Microfluidic Device Droplet High-throughput Screening Micro-reactor Emulsion

References

Huebner A, Sharma S, Srisa-Art M, Hollfelder F, Edel JB, Demello AJ, Lab Chip, 8(8), 1244 (2008)
Theberge AB, Courtois F, Schaerli Y, Fischlechner M, Abell C, Hollfelder F, Huck WTS, Angew. Chem. Int. Edit., 49(34), 5846 (2010)
Kovarik ML, Gach PC, Ornoff DM, Wang YL, Balowski J, Farrag L, Allbritton NL, Anal. Chem., 84(2), 516 (2012)
Whitesides GM, Nature, 442(7101), 368 (2006)
Song HM, Lee CS, Korean J. Chem. Eng., 25(6), 1467 (2008)
Lee JH, Kim HE, Im JH, Bae YM, Choi JS, Huh K M, Lee CS, Colloids Surf. B: Biointerfaces, 64(1), 126 (2008)
Chiu DT, Lorenz RM, Jeffries GDM, Anal. Chem., 81(13), 5111 (2009)
Choi CH, Prasad N, Lee NR, Lee CS, Biochip J., 2(1), 27 (2008)
Teh SY, Lin R, Hung LH, Lee AP, Lab Chip, 8(2), 198 (2008)
Jeong HH, Lee SH, Kim JM, Kim HE, Kim YG, Yoo JY, Chang WS, Lee CS, Biosens. Bioelectron., 26(2), 351 (2010)
Kim KP, Kim YG, Choi CH, Kim HE, Lee SH, Chang WS, Lee CS, Lab Chip, 10(23), 3296 (2010)
Cira NJ, Ho JY, Dueck ME, Weibel DB, Lab Chip, 12(6), 1052 (2012)
Kaigala GV, Hoang VN, Stickel A, Lauzon J, Manage D, Pilarski LM, Backhouse CJ, Analyst, 133(3), 331 (2008)
Jeong HH, Lee SH, Lee CS, Biosens. Bioelectron., 47, 278 (2013)
Jung JH, Choi CH, Hwang TS, Lee CS, Biochip J., 3(1), 44 (2009)
Garstecki P, Fuerstman MJ, Stone HA, Whitesides G M, Lab Chip, 6(3), 437 (2006)
Song H, Ismagilov RF, J. Am. Chem. Soc., 125(47), 14613 (2003)
Clausell-Tormos J, Lieber D, Baret JC, El-Harrak A, Miller OJ, Frenz L, Blouwolff J, Humphry KJ, Koster S, Duan H, Holtze C, Weitz DA, Griffiths AD, Merten CA, Chem. Biol., 15(8), 875 (2008)
Jung SY, Liu Y, Collier CP, Langmuir, 24(9), 4439 (2008)
Courtois F, Olguin LF, Whyte G, Theberge AB, Huck W TS, Hollfelder F, Abell C, Anal. Chem., 81(8), 3008 (2009)
Liau A, Karnik R, Majumdar A, Cate JHD, Anal. Chem., 77(23), 7618 (2005)
Tan YC, Ho YL, Lee AP, Microfluid. Nanofluid., 3(4), 495 (2007)
Huebner A, Bratton D, Whyte G, Yang M, deMello AJ, Abell C, Hollfelder F, Lab Chip, 9(5), 692 (2009)
Simon MG, Lin R, Fisher JS, Lee AP, Biomicrofluidics, 6(1) (2012)
Shim JU, Cristobal G, Link DR, Thorsen T, Jia YW, Piattelli K, Fraden S, J. Am. Chem. Soc., 129(28), 8825 (2007)
Schafle C, Bechinger C, Rinn B, David C, Leiderer P, Phys. Rev. Lett., 83(25), 5302 (1999)
Yun JX, Tu CM, Lin DQ, Xu LH, Guo YT, Shen S C, Zhang SH, Yao KJ, Guan YX, Yao SJ, J.Chromatogr. A, 1247, 81 (2012)
Lee WS, Jambovane S, Kim D, Hong JW, Microfluid. Nanofluid., 7(3), 431 (2009)
Fair RB, Microfluid. Nanofluid., 3(3), 245 (2007)
Du WB, Sun M, Gu SQ, Zhu Y, Fang Q, Anal. Chem., 82(23), 9941 (2010)
Zeng SJ, Li BW, Su XO, Qin JH, Lin BC, Lab Chip, 9(10), 1340 (2009)
Hong J, Choi M, Edel JB, deMello AJ, Lab Chip, 10(20), 2702 (2010)
Ahn B, Lee K, Lee H, Panchapakesan R, Oh KW, Lab Chip, 11(23), 3956 (2011)
Christopher GF, Bergstein J, End NB, Poon M, Nguyen C, Anna SL, Lab Chip, 9(8), 1102 (2009)
Choi JH, Lee SK, Lim JM, Yang SM, Yi GR, Lab Chip, 10(4), 456 (2010)
Link DR, Anna SL, Weitz DA, Stone HA, Phys. Rev. Lett., 92(5) (2004)
Churski K, Korczyk P, Garstecki P, Lab Chip, 10(7), 816 (2010)
Hong J, Choi M, deMello AJ, Edel JB, Biochip J., 3(3), 203 (2009)
Niu X, Gulati S, Edel JB, deMello AJ, Lab Chip, 8(11), 1837 (2008)
Mazutis L, Griffiths AD, Lab Chip, 12(10), 1800 (2012)
Tan WH, Takeuchi S, Proc. Natl. Acad. Sci. USA, 104(4), 1146 (2007)
Boukellal H, Selimovic S, Jia YW, Cristobal G, Fraden S, Lab Chip, 9(2), 331 (2009)
Bai YP, He XM, Liu DS, Patil SN, Bratton D, Huebner A, Hollfelder F, Abell C, Huck WTS, Lab Chip, 10(10), 1281 (2010)
Leung K, Zahn H, Leaver T, Konwar KM, Hanson NW, Page AP, Lo CC, Chain PS, Hallam SJ, Hansen C L, Proc. Natl. Acad. Sci. USA, 109(20), 7665 (2012)
Cohen I, Li H, Hougland JL, Mrksich M, Nagel SR, Science, 292(5515), 265 (2001)
Chabert M, Viovy JL, Proc. Natl. Acad. Sci. USA, 105(9), 3191 (2008)
Yiantsios SG, Davis RH, J. Fluid. Mech., 217, 547 (1990)
Cubaud T, Mason TG, Phys. Rev. Lett., 96(11) (2006)
Agresti JJ, Antipov E, Abate AR, Ahn K, Rowat AC, Baret JC, Marquez, M, Klibanov AM, Griffiths AD, Weitz DA, Proc. Natl. Acad. Sci. USA, 107(14), 6550 (2010)
Wang W, Yang C, Liu YS, Li CM, Lab Chip, 10(5), 559 (2010)
Hatakeyama T, Chen DLL, Ismagilov RF, J. Am. Chem. Soc., 128(8), 2518 (2006)
Theberge AB, Whyte G, Frenzel M, Fidalgo LM, Wootton RCR, Huck WTS, Chem Commun., 41, 6225 (2009)
Miyaura N, Suzuki A, Chem. Rev., 95(7), 2457 (1995)
Li SH, Lin YJ, Cao JG, Zhang SB, J. Org. Chem., 72(11), 4067 (2007)
Prasad N, Perumal J, Choi CH, Lee CS, Kim DP, Adv. Funct. Mater., 19(10), 1656 (2009)
Chan EM, Alivisatos AP, Mathies RA, J. Am. Chem. Soc., 127(40), 13854 (2005)
Jung JH, Park TJ, Lee SY, Seo TS, Angew. Chem. Int. Edit., 51(23), 5634 (2012)
Abou Hassan A, Sandre O, Cabuil V, Tabeling P, Chem Commun., 15, 1783 (2008)
Zhao CX, He LZ, Qiao SZ, Middelberg APJ, Chem. Eng. Sci., 66(7), 1463 (2011)
Lu AH, Salabas EL, Schuth F, Angew. Chem. Int. Edit., 46(8), 1222 (2007)
Jeong HH, Kim YG, Jang SC, Yi HM, Lee CS, Lab Chip, 12(18), 3290 (2012)
Kim J, Chung YM, Kang SM, Choi CH, Kim BY, Kwon YT, Kim TJ, Oh SH, Lee CS, ACS Catal., 2(6), 1042 (2012)
Bharde A, Rautaray D, Bansal V, Ahmad A, Sarkar I, Yusuf SM, Sanyal M, Sastry M, Small, 2(1), 135 (2006)
Duraiswamy S, Khan SA, Nano Lett, 10(9), 3757 (2010)
Rubin AE, Tummala S, Both DA, Wang CC, Delaney EJ, Chem. Rev., 106(7), 2794 (2006)
An HY, Cook PD, Chem. Rev., 100(9), 3311 (2000)
Theberge AB, Mayot E, El Harrak A, Kleinschmidt F, Huck WTS, Griffiths AD, Lab Chip, 12(7), 1320 (2012)
Zhang CS, Xing D, Li YY, Biotechnol Adv, 25(5), 483 (2007)
Hindson BJ, Ness KD, Masquelier DA, Belgrader P, Heredia NJ, Makarewicz AJ, Bright IJ, Lucero MY, Hiddessen AL, Legler TC, Kitano TK, Hodel MR eds, Anal. Chem., 83(22), 8604 (2011)
Kiss MM, Ortoleva-Donnelly L, Beer NR, Warner J, Bailey CG, Colston BW, Rothberg JM, Link DR, Leamon JH, Anal. Chem., 80(23), 8975 (2008)
Schaerli Y, Wootton RC, Robinson T, Stein V, Dunsby C, Neil MAA, French PMW, deMello AJ, Abell C, Hollfelder F, Anal. Chem., 81(1), 302 (2009)
Hatch AC, Fisher JS, Tovar AR, Hsieh AT, Lin R, Pentoney SL, Yang DL, Lee AP, Lab Chip., 11(22), 3838 (2011)
Fallah-Araghi A, Baret JC, Ryckelynck M, Griffiths A D, Lab Chip, 12(5), 882 (2012)
Tawfik DS, Griffiths AD, Nat. Biotechnol., 16(7), 652 (1998)
Juul S, Nielsen CJF, Labouriau R, Roy A, Tesauro C, Jensen PW, Harmsen C, Kristoffersen EL, Chiu YL, Frohlich R, Fiorani P, Cox-Singh J, Tordrup D, Koch J eds, ACS nano, 6(12), 10676 (2012)
Lee KG, Park TJ, Soo SY, Wang KW, Kim BH, Park JH, Lee CS, Kim DH, Lee SJ, Biotechnol. Bioeng., 107(4), 747 (2010)
Joensson HN, Samuels ML, Brouzes ER, Medkova M, Uhlen M, Link DR, Andersson-Svahn H, Angew. Chem. Int. Edit., 48(14), 2518 (2009)
Brouzes E, Medkova M, Savenelli N, Marran D, Twardowski M, Hutchison JB, Rothberg JM, Link DR, Perrimon N, Samuels ML, Proc. Natl. Acad. Sci. USA, 106(34), 14195 (2009)
Edd JF, Carlo DD, Humphry KJ, Koster S, Irimia D, Weitz DA, Toner M, Lab Chip, 8(8), 1262 (2008)
Kemna EWM, Schoeman RM, Wolbers F, Vermes I, Weitz DA, van den Berg A, Lab Chip, 12(16), 2881 (2012)
Koster S, Angile FE, Duan H, Agresti JJ, Wintner A, Schmitz C, Rowat AC, Merten CA, Pisignano D, Griffiths AD, Weitz DA, Lab Chip, 8(7), 1110 (2008)
El Debs B, Utharala R, Balyasnikova IV, Griffiths AD, Merten CA, Proc. Natl. Acad. Sci. USA, 109(29), 11570 (2012)