OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

化学进展 2011

惯性效应在微流控芯片中的应用

, PP. 1945-1958

项楠,朱晓璐,倪中华

Keywords: 惯性微流控芯片,惯性效应,聚焦,分选,混合,微流控光学

Full-Text Cite this paper Add to My Lib

Abstract:

作为一种操控粒子或流体的新技术,基于流体惯性的操控技术已被应用于微流控芯片中粒子的输运、分选、聚焦及试样的混合和反应等操作,而在微尺度惯性效应基础上的惯性微流控芯片由于具有高通量、无需外场介入、低成本、易集成及微型化等众多优点,可用于解决医疗诊断、生化分析、合成化学及环境监测等领域的检测分析和微量操控问题,因此对该技术的机理及应用研究已成为目前微流控技术领域一个重要的研究热点。本文在介绍惯性微流控芯片机理及其研究进展的同时,从惯性聚焦、惯性分选及基于Dean流的微混合器和微流控光学器件等几个方面对惯性微流控芯片的最新应用研究进展进行了较为详细的介绍和分析比较。在此基础上,分析了惯性微流控芯片的局限和未来需要解决的问题。

References

[1]	肖守军(Xiao S J), 陈凌(Chen L), 许宁(Xu N).化学进展(Progress in Chemistry), 2009, 21(11): 2397-2410
[2]	Sia S K, Kricka L J.Lab Chip, 2008, 8: 1982-1983
[3]	Schulte T H, Bardell R L, Weigl B H.Clin.Chim.Acta, 2002, 321: 1-10
[4]	林炳承(Lin B C), 秦建华(Qin J H).高等学校化学学报(Chemical Journal of Chinese Universities), 2009, 30(3): 433-445
[5]	Skurtys O, Aguilera J M.Food Biophys., 2008, 3: 1-15
[6]	Fair R.Microfluid.Nanofluid., 2007, 3: 245-281
[7]	Ni Z H, Yi H, Zhu S C, Song C F.Sci.China Ser.E-Tech.Sci, 2009, 52: 2831-2839
[8]	Segre G, Silberberg A.Nature, 1961, 189: 209-210
[9]	Bretherton F P.J.Fluid Mech., 1962, 12: 591-613
[10]	Saffman P G.J.Fluid Mech., 1965, 22: 385-400
[11]	Asmolov E S.J.Fluid Mech., 1999, 381: 63-87
[12]	Matas J-P, Morris J F, Guazzelli é.J.Fluid Mech., 2004, 515: 171-195
[13]	Yu Z, Phan-thien N, Tanner R I.J.Fluid Mech., 2004, 518: 61-93
[14]	Di Carlo D, Irimia D, Tompkins R G, Toner M.Proc.Natl.Acad.Sci.U.S.A., 2007, 104: 18892-18897
[15]	Chun B, Ladd A J C.Phys.Fluids, 2006, 18: art.no.031704
[16]	Eustice J.Proc.R.Soc.London, Ser.A, 1910, 84: 107-118
[17]	Dean W R.Philos.Mag., 1927, 4: 208-223
[18]	Berger S A, Talbot L, Yao L S.Annu.Rev.Fluid Mech., 1983, 15: 461-512
[19]	Lee M G, Choi S, Park J K.Lab Chip, 2009, 9: 3155-3160
[20]	Paddock S W.Mol.Biotechnol., 2000, 16: 127-149
[21]	Kim G B, Lee S J.Exp.Fluids, 2006, 41: 195-200
[22]	Ahn Y C, Jung W G, Chen Z P.Lab Chip, 2008, 8: 125-133
[23]	Kim S, Lee S J.Exp.Fluids, 2009, 46: 255-264
[24]	Ookawara S, Higashi R, Street D, Ogawa K.Chem.Eng.J., 2004, 101: 171-178
[25]	Bhagat A A S, Kuntaegowdanahalli S S, Papautsky I.Lab Chip, 2008, 8: 1906-1914
[26]	Kuntaegowdanahalli S S, Bhagat A A S, Kumar G, Papautsky I.Lab Chip, 2009, 9: 2973-2980
[27]	Cox R G, Brenner H.Chem.Eng.Sci., 1968, 23: 147-173
[28]	Edd J F, Di Carlo D, Humphry K J, Koster S, Irimia D, Weitz D A, Toner M.Lab Chip, 2008, 8: 1262-1264
[29]	Inamuro T, Maeba K, Ogino F.Int.J.Multiphase Flow, 2000, 26: 1981-2004
[30]	Haeberle S, Zengerle R.Lab Chip, 2007, 7: 1094-1110
[31]	Mark D, Haeberle S, Roth G, von Stetten F, Zengerle R.Chem.Soc.Rev., 2010, 39: 1153-1182
[32]	van der Sman R G M.Soft Matter, 2009, 5: 4376-4387
[33]	Duffy D C, McDonald J C, Schueller O J A, Whitesides G M.Anal.Chem., 1998, 70: 4974-4984
[34]	McDonald J C, Duffy D C, Anderson J R, Chiu D T, Wu H K, Schueller O J A, Whitesides G M.Electrophoresis, 2000, 21: 27-40
[35]	Martinez A W, Phillips S T, Wiley B J, Gupta M, Whitesides G M.Lab Chip, 2008, 8: 2146-2150
[36]	姚波(Yao B), 何巧红(He Q H), 杜文斌(Du W B), 石晓彤(Shi X T), 方群(Fang Q).色谱(Chinese Journal of Chromatography), 2009, 27(5): 662-666
[37]	Bhagat A A S, Jothimuthu P, Pais A, Papautsky I.J.Micromech.Microeng., 2007, 17: 42-49
[38]	Lee G B, Lin C H, Chang G L.Sensor.Actuat.A: Phys, 2003, 103: 165-170
[39]	Kachel V, Wietzorrek J.Sci.Mar., 2000, 64: 247-254
[40]	Huh D, Gu W, Kamotani Y, Grotberg J B, Takayama S.Physiol.Meas., 2005, 26: R73-R98
[41]	Ateya D A, Erickson J S, Howell P B, Hilliard L R, Golden J P, Ligler F S.Anal.Bioanal.Chem., 2008, 391: 1485-1498
[42]	高健(Gao J), 殷学锋(Yin X F), 方肇伦(Fang Z L).化学进展(Progress in Chemistry), 2004, 16(6): 975-983
[43]	Kersaudy-Kerhoas M, Dhariwal R, Desmulliez M P Y.IET Nanobiotechnol., 2008, 2: 1-13
[44]	Zeng Q, Chan H W L, Zhao X Z, Chen Y.Microelectron.Eng., 2010, 87: 1204-1206
[45]	Cheng I F, Chang H C, Hou D, Chang H C.Biomicrofluidics, 2007, 1: art.no.021503
[46]	Mao X L, Waldeisen J R, Huang T J.Lab Chip, 2007, 7: 1260-1262
[47]	Lim J M, Kim S H, Yang S M.Microfluid.Nanofluid., 2010, 10: 211-217
[48]	Calvert P.Science, 2007, 318: 208-209
[49]	Coskun A F, Su T W, Ozcan A.Lab Chip, 2010, 10: 824-827
[50]	Strathmann H.AIChE J., 2001, 47: 1077-1087
[51]	徐溢(Xu Y), 张剑(Zhang J), 徐平洲(Xu P Z), 卢倩(Lu Q), 曾雪(Zeng X), 温志渝(Wen Z Y).化学进展(Progress in Chemistry), 2007, 19(1): 186-192
[52]	Fu A Y, Spence C, Scherer A, Arnold F H, Quake S R.Nat.Biotechnol., 1999, 17: 1109-1111
[53]	Bhagat A, Bow H, Hou H, Tan S, Han J, Lim C.Med.Biol.Eng.Comput., 2010, 48: 999-1014
[54]	Sun T, Morgan H.Microfluid.Nanofluid., 2010, 8: 423-443
[55]	Rakow A L, Chappell M L, Long R L.Biotechnol.Progr., 1989, 5: 105-110
[56]	Wickramasinghe S R, Lin W C, Dandy D S.Biotechnol.Lett., 2001, 23: 1417-1422
[57]	Mach A J, Di Carlo D.Biotechnol.Bioeng., 2010, 107: 302-311
[58]	Wu Z G, Willing B, Bjerketorp J, Jansson J K, Hjort K.Lab Chip, 2009, 9: 1193-1199
[59]	Ookawara S, Street D, Ogawa K.Chem.Eng.Sci., 2006, 61: 3714-3724
[60]	Ookawara S, Ishikawa T, Ogawa K.Chem.Eng.Technol., 2007, 30: 316-321
[61]	Ookawara S, Oozeki N, Ogawa K, Lb P, Hessel V.Chem.Eng.Process., 2010, 49: 697-703
[62]	Yoon D H, Ha J B, Bahk Y K, Arakawa T, Shoji S, Go J S.Lab Chip, 2009, 9: 87-90
[63]	Seo J, Lean M H, Kole A.Appl.Phys.Lett., 2007, 91: art.no.033901
[64]	PARC (Palo Alto Research Center).Low-energy, Compact, Cost-effective Separation for Water Treatment and Recycling or Precious Resource Recovery .http: //www.parc.com/work/focus-area/clean-water/
[65]	Bhagat A A S, Kuntaegowdanahalli S S, Dionysiou D D, Papautsky I.Microfluidics, BioMEMS, and Medical Microsystems VI(Eds.Wanjun W, Claude V).California: SPIE, 2008.68860M
[66]	Di Carlo D, Edd J F, Irimia D, Tompkins R G, Toner M.Anal.Chem., 2008, 80: 2204-2211
[67]	Sollier E, Rostaing H, Pouteau P, Fouillet Y, Achard J L.Sens.Actuators, B, 2009, 141: 617-624
[68]	Stroock A D, Dertinger S K W, Ajdari A, Mezic I, Stone H A, Whitesides G M.Science, 2002, 295: 647-651
[69]	Nguyen N T, Wu Z.J.Micromech.Microeng., 2005, 15: R1-R16
[70]	Liu R H, Stremler M A, Sharp K V, Olsen M G, Santiago J G, Adrian R J, Aref H, Beebe D J.J.Microelectromech.Syst., 2000, 9: 190-197
[71]	Beebe D J, Adrian R J, Olsen M G, Stremler M A, Aref H, Jo B-H.Mec.Ind., 2000, 2: 343-348
[72]	Liu Y Z, Kim B J, Sung H J.Int.J.Heat Fluid Flow, 2004, 25: 986-995
[73]	Schonfeld F, Hardt S.AIChE J., 2004, 50: 771-778
[74]	Jiang F, Drese K S, Hardt S, Kupper M, Schonfeld F.AIChE J., 2004, 50: 2297-2305
[75]	Sudarsan A P, Ugaz V M.Lab Chip, 2006, 6: 74-82
[76]	Sudarsan A P, Ugaz V M.Proc.Natl.Acad.Sci.U.S.A., 2006, 103: 7228-7233
[77]	Tang G H, He Y L, Tao W Q.Appl.Phys.Lett., 2010, 107: art.no.104906
[78]	Chung C K, Shih T R.J.Micromech.Microeng., 2007, 17: 2495-2504
[79]	Chung C K, Shih T R.Microfluid.Nanofluid., 2008, 4: 419-425
[80]	Rosenauer M, Vellekoop M J.Lab Chip, 2009, 9: 1040-1042
[81]	Williams P S, Lee S H, Giddings J C.Chem.Eng.Commun., 1994, 130: 143-166
[82]	Williams P S, Moon M H, Giddings J C.Colloids Surf., A, 1996, 113: 215-228
[83]	Williams P S, Moon M H, Xu Y H, Giddings J C.Chem.Eng.Sci., 1996, 51: 4477-4488
[84]	LaVan D A, McGuire T, Langer R.Nat.Biotechnol., 2003, 21: 1184-1191
[85]	Squires T M, Quake S R.Rev.Mod.Phys., 2005, 77: 977-1026
[86]	Tabeling P.Introduction to Microfluidics.New York: Oxford University Press, 2005.76
[87]	Berthier J, Silberzan P.Microfluidics for biotechnology.Boston: Artech House, 2006.11-13
[88]	Segre G, Silberberg A.J.Fluid Mech., 1962, 14: 115-135
[89]	Segre G, Silberberg A.J.Fluid Mech., 1962, 14: 136-157
[90]	Rubinow S I, Keller J B.J.Fluid Mech., 1961, 11: 447-459
[91]	McLaughlin J B.J.Fluid Mech., 1991, 224: 261-274
[92]	Ho B P, Leal L G.J.Fluid Mech., 1974, 65: 365-400
[93]	Schonberg J A, Hinch E J.J.Fluid Mech., 1989, 203: 517-524
[94]	Yang B H, Wang J, Joseph D D, Hu H H, PAN T-W, Glowinski R.J.Fluid Mech., 2005, 540: 109-131
[95]	Di Carlo D, Edd J F, Humphry K J, Stone H A, Toner M.Phys.Rev.Lett., 2009, 102: art.no.094503
[96]	Kim Y W, Yoo J Y.J.Micromech.Microeng., 2008, 18: art.no.065015
[97]	Choi Y S, Lee S J.Microfluid.Nanofluid., 2010, 9: 819-829
[98]	Di Carlo D.Lab Chip, 2009, 9: 3038-3046
[99]	Dean W R.Philos.Mag., 1928, 5: 673-695
[100]	Park J S, Song S H, Jung H I.Lab Chip, 2009, 9: 939-948
[101]	Lee M G, Choi S, Park J K.Appl.Phys.Lett., 2009, 95: art.no.501902
[102]	Talbot L, Gong K O.J.Fluid Mech., 1983, 127: 1-25
[103]	Back L H, Kwack E Y, Crawford D W.J.Biomech.Eng., 1988, 110: 310-319
[104]	Knspik D A, Starkoski B, Pavlin C J, Foster F S.IEEE Trans.Ultrason.Ferroelectr.Freq.Control, 2000, 47: 1540-1549
[105]	Hur S C, Tse H T K, Di Carlo D.Lab Chip, 2010, 10: 274-280
[106]	Bhagat A A S, Kuntaegowdanahalli S S, Papautsky I.Microfluid.Nanofluid., 2009, 7: 217-226
[107]	Zeng L, Balachandar S, Fischer P.J.Fluid Mech., 2005, 536: 1-25
[108]	Bhagat A A S.Doctoral Dissertation of University of Cincinnati, 2009
[109]	Humphry K J, Kulkarni P M, Weitz D A, Morris J F, Stone H A.Phys.Fluids, 2010, 22: art.no.081703
[110]	Gossett D R, Di Carlo D.Anal.Chem., 2009, 81: 8459-8465
[111]	Oakey J, Applegate R W, Jr., Arellano E, Di Carlo D, Graves S W, Toner M.Anal.Chem., 2010, 82: 3862-3867
[112]	Bhagat A A, Kuntaegowdanahalli S S, Kaval N, Seliskar C J, Papautsky I.Biomed.Microdevices, 2010, 12: 187-195
[113]	Matas J P, Glezer V, Guazzelli E, Morris J F.Phys.Fluids, 2004, 16: 4192-4195
[114]	Yan Y G, Morris J F, Koplik J.Phys.Fluids, 2007, 19: art.no.113305
[115]	Pryputniewicz R J, Galambos P, Brown G C, Furlong C, Pryputniewicz E J.Int.J.Microcircuits Electron.Packag., 2001, 24: 30-36
[116]	Thorsen T, Maerkl S J, Quake S R.Science, 2002, 298: 580-584
[117]	Li Y, Qu S L.Mater.Lett., 2010, 64: 1427-1429
[118]	Vitek D N, Adams D E, Johnson A, Tsai P S, Backus S, Durfee C G, Kleinfeld D, Squier J A.Opt.Express, 2010, 18: 18086-18094
[119]	Martinez A W, Phillips S T, Whitesides G M.Proc.Natl.Acad.Sci.U.S.A., 2008, 105: 19606-19611
[120]	Martinez A W, Phillips S T, Whitesides G M, Carrilho E.Anal.Chem., 2010, 82: 3-10
[121]	Atencia J, Cooksey G A, Jahn A, Zook J M, Vreeland W N, Locascio L E.Lab Chip, 2010, 10: 246-249
[122]	Lindken R, Rossi M, Grosse S, Westerweel J.Lab Chip, 2009, 9: 2551-2567
[123]	Wereley S T, Meinhart C D.Annu.Rev.Fluid Mech., 2010, 42: 557-576
[124]	Varga V S, Ficsor L, Kamaras V, Jonas V, Virag T, Tulassay Z, Molnar B.Cytometry, Part A, 2009, 75A: 1020-1030
[125]	Chung T D, Kim H C.Electrophoresis, 2007, 28: 4511-4520
[126]	Godin J, Chen C H, Cho S H, Qiao W, Tsai F, Lo Y H.J.Biophotonics, 2008, 1: 355-376
[127]	Heikali D, Di Carlo D.JALA, 2010, 15: 319-328
[128]	Pamme N.Lab Chip, 2007, 7: 1644-1659
[129]	Lenshof A, Laurell T.Chem.Soc.Rev., 2010, 39: 1203-1217
[130]	Xuan X C, Zhu J J, Church C.Microfluid.Nanofluid., 2010, 9: 1-16
[131]	Robinson J P.Flow cytometry.In: Wnek G E, Bowlin G L, ed.Encyclopedia of Biomaterials and Biomedical Engineering.New York: Marcel Dekker Inc, 2004.630-640
[132]	Shi J, Mao X, Ahmed D, Colletti A, Huang T J.Lab Chip, 2008, 8: 221-223
[133]	Goddard G R, Sanders C K, Martin J C, Kaduchak G, Graves S W.Anal.Chem., 2007, 79: 8740-8746
[134]	Zhu J J, Tzeng T R J, Hu G Q, Xuan X C.Microfluid.Nanofluid., 2009, 7: 751-756
[135]	Lin Y H, Lee G B.Biosens.Bioelectron., 2008, 24: 572-578
[136]	James C D, McClain J, Pohl K R, Reuel N, Achyuthan K E, Bourdon C J, Rahimian K, Galambos P C, Ludwig G, Derzon M S.J.Micromech.Microeng., 2010, 20: art.no.045015
[137]	沈玉勤(Shen Y Q), 姚波(Yao B), 方群(Fang Q).化学进展(Progress in Chemistry), 2010, 22(1): 133-139
[138]	Zhao Y Q, Fujimoto B S, Jeffries G D M, Schiro P G, Chiu D T.Opt.Express, 2007, 15: 6167-6176
[139]	Kim Y W, Yoo J Y.Biosens.Bioelectron., 2009, 24: 3677-3682
[140]	Choi S, Park J K.Anal.Chem., 2008, 80: 3035-3039
[141]	Mao X L, Lin S C S, Dong C, Huang T J.Lab Chip, 2009, 9: 1583-1589
[142]	Lee K S, Kim S B, Lee K H, Sung H J, Kim S S.Appl.Phys.Lett., 2010, 97: art.no.021109
[143]	Nakamura M, Kobayashi A, Takagi F, Watanabe A, Hiruma Y, Ohuchi K, Iwasaki Y, Horie M, Morita I, Takatani S.Tissue Eng., 2005, 11: 1658-1666
[144]	Lee G B, Lin C H, Chang S C.J.Micromech.Microeng., 2005, 15: 447-454
[145]	McKenna B K, Selim A A, Richard Bringhurst F, Ehrlich D J.Lab Chip, 2009, 9: 305-310
[146]	Su T W, Seo S, Erlinger A, Ozcan A.Biotechnol.Bioeng., 2009, 102: 856-868
[147]	Lee H, Sun E, Ham D, Weissleder R.Nat.Med., 2008, 14: 869-874
[148]	Badilita V, Kratt K, Baxan N, Mohmmadzadeh M, Burger T, Weber H, von Elverfeldt D, Hennig J, Korvink J G, Wallrabe U.Lab Chip, 2010, 10: 1387-1390
[149]	Russom A, Gupta A K, Nagrath S, Di Carlo D, Edd J F, Toner M.New J.Phys., 2009, 11: art.no.075025
[150]	Gijs M A M, Lacharme F, Lehmann U.Chem.Rev., 2010, 110: 1518-1563
[151]	Gossett D R, Weaver W M, Mach A J, Hur S C, Tse H T K, Lee W, Amini H, Di Carlo D.Anal.Bioanal.Chem., 2010, 397: 3249-3267
[152]	Rakow A L, Fernald D.Biotechnol.Progr., 1991, 7: 343-347
[153]	Bhagat A A S, Kuntaegowdanahalli S S, Papautsky I.Phys.Fluids, 2008, 20: art.no.101702
[154]	Toner M, Irimia D.Annu.Rev.Biomed.Eng., 2005, 7: 77-103
[155]	Faivre M, Abkarian M, Bickraj K, Stone H A.Biorheology, 2006, 43: 147-159
[156]	Park J S, Jung H I.Anal.Chem., 2009, 81: 8280-8288
[157]	Oozeki N, Ookawara S, Ogawa K, Lb P, Hessel V.AIChE J., 2009, 55: 24-34
[158]	Seo J, Lean M H, Kole A.J.Chromatogr.A, 2007, 1162: 126-131
[159]	Ottino J M, Wiggins S.Philos.Trans.R.Soc.London, Ser.A, 2004, 362: 923-935
[160]	Bhagat A A S, Peterson E T K, Papautsky I.J.Micromech.Microeng., 2007, 17: 1017-1024
[161]	Hessel V, Lwe H, Schnfeld F.Chem.Eng.Sci., 2005, 60: 2479-2501
[162]	Mengeaud V, Josserand J, Girault H H.Anal.Chem., 2002, 74: 4279-4286
[163]	Nonino C, Savino S, Del Giudice S.Heat Transfer Eng., 2009, 30: 101-112
[164]	Howell P B, Mott D R, Golden J P, Ligler F S.Lab Chip, 2004, 4: 663-669
[165]	Chung C K, Shih T R, Wu B H, Chang C K.Microsyst.Technol., 2010, 16: 1595-1600
[166]	Wang J, Zhan Y H, Ugaz V M, Lu C.Lab Chip, 2010, 10: 2057-2061
[167]	Mao X L, Waldeisen J R, Juluri B K, Huang T J.Lab Chip, 2007, 7: 1303-1308
[168]	Nguyen N T.Biomicrofluidics, 2010, 4: art.no.031501
[169]	Levesley J A, Bellhouse B J.Chem.Eng.Sci., 1993, 48: 3657-3669
[170]	王立凯(Wang L K), 冯喜增(Feng X Z).化学进展(Progress in Chemistry), 2005, 17(3): 482-498
[171]	秦建华(Qin J H), 刘婷姣(Liu T J), 林炳承(Lin B C).色谱(Chinese Journal of Chromatography), 2009, 27(5): 654-661
[172]	Marle L, Greenway G M.TrAC, Trends Anal.Chem., 2005, 24: 795-802
[173]	Kjeang E, Djilali N, Sinton D.J.Power Sources, 2009, 186: 353-369
[174]	Levy U, Shamai R.Microfluid.Nanofluid., 2008, 4: 97-105
[175]	Drzaic P.Nat.Photonics, 2009, 3: 248-249
[176]	Lin B, Long Z, Liu X, Qin J.Biotechnol.J., 2006, 1: 1225-1234
[177]	朱晓璐(Zhu X L), 易红(Yi H), 倪中华(Ni Z H).机械工程学报(Journal of Mechanical Engineering), 2009, 45(11): 197-204
[178]	Zhu X L, Gao Z Q, Yin Z F, Ni Z H.Microfluid.Nanofluid., 2010, 9: 981-988
[179]	Zhu X L, Yi H, Ni Z H.Biomicrofluidics, 2010, 4: art.no.013202
[180]	Zhu X L, Yin Z F, Gao Z Q, Ni Z H.Sci.China Ser.E-Tech.Sci., 2010, 53: 2388-2396

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133