Hydrodynamic focusing inside rectangular microchannels

• Autorzy: Dziubiński M. , Domagalski P.

Warianty tytułu

PL

Hydrodynamiczne ogniskowanie cieczy w mikrokanałach o przekroju prostokątnym

• Języki publikacji: PL

Abstrakty

PL

Przedstawiono istniejące możliwości zastosowania techniki hydrodynamicznego ogniskowania strugi cieczy w mikrokanałach, a także wyniki najnowszych badań własnych, które pokazują złożoność hydrodynamiki ogniskowania strugi cieczy w mikrokanałach. Wskazano na nowe, obiecujące kierunki rozwoju tej techniki i jej zastosowania.

EN

The paper presents a review of existing applications of hydrodynamic focusing and the latest research in this area. Hydrodynamic focusing, being a well established technique in microfluidic area has found many applications. The latest researches, however, show precisely a new, complicated three-dimensional aspect of this phenomenon indicating novel, promising possibilities of future applications and development.

Słowa kluczowe

PL

ciecz; hydrodynamika ogniskowania; mikrokanał

EN

hydrodynamic focusing; liquid; mocrochannel

• Wydawca: Komitet Inżynierii Chemicznej i Procesowej Polskiej Akademii Nauk
• Czasopismo: Chemical and Process Engineering
• Rocznik: 2007
• Tom: Vol. 28, z. 3
• Strony: 567--577
• Opis fizyczny: Bibliogr. 55 poz.,Rys., wykr.,

Twórcy

autor

Dziubiński M.

autor

Domagalski P.

• Faculty of Process and Environmental Engineering, Technical University of Łódź

Bibliografia

• [1] HUH D., GU W., RAMOTAMI Y., GROTBERG J.B., TAKAYAMA S., Physiol. Meas., 2005, 26, 73.
• [2] HYUNWOO B., CHUNG C., KIM J.K., KIM S.H., CHUNG S., PARK J., LEE W.G., YUN H., LEE J., CHO K., HAN D-C, CHANG J.K., Microsyst. Technol., 2006, 12, 746753.
• [3] KRUGER J., SINGH K., O'NEILL A., JACKSON C., MORRISON A., O'BRIEN P., Development of a microfluidic device for fluorescence activated celi sorting, J. Micromech. Microeng., 2002, 12,486.
• [4] CHEIN R., TSAI S.H., Biomed. Microdev., 2004, 6, 81
• [5] LEE G.B., LIN C.H., CHANG S.C., J. Micromech. Microeng., 2005, 15,447
• [6] LEE G-B. HwEiB-H. HUANGG-R., J. Micromech. Microeng., 2001, 11 654.
• [7] BANG H., CHUNG C., KIM J.K., KIM S.H., CHUNG S., PARK J., LEE W.G., YUN H., LEE J., CHO K., HAN D-C., CHANG J.K., Microsyst. Techn., 2006, 12, 746.
• [8] VESTAD T.,MARR D.W M..OAKEY J., J. Micromech. Microeng., 2004, 14, 1503.
• [9] DITTRICH P., SCHWILLE P., Anal. Chem., 2003, 75, 5767
• [10] YAMADA M., SEKI M., Lab Chip, 2005, 5, 1233.
• [11] GORANOYIC G., PERCH-NIELSEN I.R., LARSEN U.D., WOLFF A., KUTTER J.P., TELLEMAN P., Three- dimensionalsingle stepflow sheathing in micro cellsorters, Proc. MSM Conference, 2001
• [12] KLANK H., GORANOYIC G., KUTTER J.P., GJELSTRUP H., MICHELSEN J., WESTERGAARD C.H., J. Micromech. Microeng., 2002, 12, 1503.
• [13] SUNDARARAJAN N., PIO M.S., LEE L.P., BERLIN A.A., J. Microelectromech. Syst., 2004, 13,4.
• [14] CHUNG S., PARK S.J., KIM J.K., CHUNG C., HAN D.C., CHANG J.K., Microsyst. Techn., 2003, 9, 525.
• [15] NIEUWENHUIS J.H., BASTEMEIJER J., SARRO P.M., YELLEKOOP M.J., Integrated flow-cells for novd adjustable sheathflows, Lab Chip, 2003, 3, 56.
• [16] KNIGHTJ.B.,VISHWANATH A., BRODY J.P.,AUSTIN R.H., Phys. Rev. Lett., 1998,80,3863.
• [17] NGUYEN N.T., HUANG X., Mixing in micmchannels based on hydrodynamic focusing and time-interleavedsegmentation. Modellingand experiment, Proc. of SP1E, 2006, 6036, 60360L-1
• [18] TABELING A., CHABERT M., DODGE A., JULLIEN C., OKKELS F., Phil. Trans. R. Soc. Lond. A, 2004, 362, 1818,987
• [19] PARK H.Y., Qiu X., RHOADES E., KOREACH J., KWOK L.W., ZIPFEL W.R., WEBB W.W., POLLACK L, Anal. Chem, 2006, 78, 4465.
• [20] STILES T., FALLON A.R., YESTAD A.T., OAKEY A.J., MARR D.W.M., SQUIER A.J., JIMENEZ A.R., Microfuid Nanofuid, 2005, 1, 280283.
• [21] MAJUMDAR Z.K., SUTIN J.D.B., CLEGG R.M., Rev. Sci. Instrum., 2005, 76, 125103.
• [22] POLLACK L., TATE M.W., FINNEFROCK F.C., KALIDAS C., TROTTER S., DARNTON N.C., LURIO L., AUSTIN R.H., BATT C.A., GRUNER S.M., MOCHRIE S.G.J., Time resolved collapse of afoldingprotein observed with smali angle X-Ray scattering, DOI: 0.1103/PhysRevLett.86.4962.
• [23] RUSSELL R., MlLLETT I.S., TATE M.W., KWOK L.W., NAKATANI B., GRUNER S.M., MOCHRIE S.G.J., PANDE V., DONIACH S., HERSCHLAG D., POLLACK L., Rapid compaction during RNA folding, PNAS, 2002, 99, 4266.
• [24] HERTZOG D.E., MICHALET X., JAGER M., KONG X., SANTIAGO J.G., WEISS S., BAKAJIN O., Anal. Chem., 2004, 76, 7169.
• [25] DlTTRICH P.S., MULLER B., SCHWILLE P., Phys. Chem. Chem. Phys., 2004, 6, 4416.
• [26] JAHN A., YREELANDW N., GAITAN M., LOCASCIO L.E., J. Am. Chem. Soc., 2004, 126,2674.
• [27] Ju J.I., OH H.J., KIM S.R., LEE S.H., J. Micromech. Microeng., 2005, 15, 601
• [28] OH H-J., KIM S.H., BAEK J-Y., SEONG G-H., LEE S-H., J. Micromech. Microeng., 2006, 16, 285.
• [29] KENIS P.J., ISMAGILOV R.F., WHITESIDES G.M., Sci., 1999,2852.
• [30] KENIS P.J.A., ISMAGILOY R.F., TAKAYAMA S., WHITESIDES G.M., Acc. Chem. Res., 2000, 33, 841.
• [31] TAKAYAMA S., OSTUNI E., QIAN X., MCDONALD J.C., JIANG X., LEDUC P., Wu M-H., INGBER D.E., WHITESIDES G.M., Adv. Mater., 2001, 13, 570.
• [32] TAKAYAMA S., OSTUNI E., LEDUC P., NARUSE K., INGBER D.E., WHITESIDES G.M., Nature, 2001,411, 1016.
• [33] TAKAYAMA S., OSTUNI E., LEDUC P., NARUSE K., INGBER D.E., WHITESIDES G.M, Chem. Biol., 2003, 10,123.
• [34] KAM L., BOXER S.G., Langmuir, 2003, 19, 1624.
• [35] MOHLENBROCK M.J., PRICE A.K., MARTIN R.S., Analyst, 2006, 131 930.
• [36] SETHU P., ANAHTAR M., MOLDAWER L.L., TOMPKINS R.G., TONER M., Anal. Chem., 2004, 76,6247.
• [37] WONG P.K., LEE Y.-K., Ho C.-M., J. Fluid Mech., 2003, 497, 55.
• [38] UTADA A.S., LORENCEAU E., KAPLAN P.D., STONE H.A., WEITZ A., Sci., 2005, 308, 5721, 537
• [39] DREYFUS R., TABELING P., WILLAIMEH., Phys. Rev. Lett, 2003, 90, 144505.
• [40] ANNA S.L., BONTOUX N., STONE H.A., Appl. Phys. Lett., 2003, 82, 364.
• [41] JOANICOT M., AJDARI A., Sci., 2005, 309, 5736, 887
• [42] CAUBAUD T., TATINENI M., ZHONG X., Ho C.-M., Phys. Rev. E, 2005, 72, 037302.
• [43] XuQ.,NAKAJlMAM., Appl. Phys. Lett, 2004, 85, 173726.
• [44] CRISTOBAL G., ARBOUET L., SARRAZIN F., TALAGA D., BRUNEEL J-L., JOANICOT M., SERYANT L, On¬line laser Raman spectroscopic probing of droplets engineered in microfluidic devices, Lab Chip, 2006, DOI: 10.1039/b602702d
• [45] RAVENJ.P.,MARMOTTANTP.,GRANERF., Eur. Phys. J. B, Cond. MatterComp. Syst, 2006, 50,137.
• [46] GARSTECKI P., GANAN-CALYO A.M., WHITESIDES G.M., Buli. Polish Acad. Sci., 2005,53, 4.
• [47] WARDT.,FAIVREM., ABKARIAN M., STONE H.A., Electrophoresis, 2005, 26, 37163724.
• [48] GARSTECKI P , STONE H.A., WHITESIDES G.M., Mechanizm for Flow-Rate Controlled Breakup in Confined Ceometries: A Route to Monodisperse Eimtlsions, PRL. 2005, 94, 164501
• [49] MIELNIK M.M., S-ETRAN L.R., Exp. Fluids, 2006, 41, 155.
• [50] WU Z., NGUYENN.-T., Sens. Act B, 2005, 107, 965.
• [51] WU Z., NGUYENN.-T., Conv. Microfl. Nanofl., 2005, 1,208.
• [52] Wu Z., NGUYENN.-T., Biomed. Microdey., 2005, 7, 13.
• [53] LEE G.-B., CHANG C.-C., HUANG S.-B., YANGR.-J., J. Micromech. Microeng., 2006, 16, 1024.
• [54] DOMAGALSKI P.M., MIELNIK M.M., LUNDE L, SAETRAN L.R., Int. J. Heat Trans. Eng., 2007, 28, inpress.
• [55] SOLLI L.A., SAETRAN L.R., MIELNIK. M.M., Numerical modeling of fluid layers in hydrodynamic focusing, Proc. 2nd Int. Conf. Transport Phenomena in Micro and Nanodevices, 2006, Barga, Italy.