Multivortex micromixing.

The ability to mix liquids in microchannel networks is fundamentally important in the design of nearly every miniaturized chemical and biochemical analysis system. Here, we show that enhanced micromixing can be achieved in topologically simple and easily fabricated planar 2D microchannels by simply introducing curvature and changes in width in a prescribed manner. This goal is accomplished by harnessing a synergistic combination of (i) Dean vortices that arise in the vertical plane of curved channels as a consequence of an interplay between inertial, centrifugal, and viscous effects, and (ii) expansion vortices that arise in the horizontal plane due to an abrupt increase in a conduit's cross-sectional area. We characterize these effects by using confocal microscopy of aqueous fluorescent dye streams and by observing binding interactions between an intercalating dye and double-stranded DNA. These mixing approaches are versatile and scalable and can be straightforwardly integrated as generic components in a variety of lab-on-a-chip systems.

[1]  Dong Sung Kim,et al.  A barrier embedded chaotic micromixer , 2004 .

[2]  Nam-Trung Nguyen,et al.  Micromixers?a review , 2005 .

[3]  A Bertsch,et al.  Static micromixers based on large-scale industrial mixer geometry. , 2001, Lab on a chip.

[4]  R Zengerle,et al.  Batch-mode mixing on centrifugal microfluidic platforms. , 2005, Lab on a chip.

[5]  F. Durst,et al.  Asymmetric flows and instabilities in symmetric ducts with sudden expansions , 1978, Journal of Fluid Mechanics.

[6]  Klavs Jensen,et al.  Chemical kinetics: Smaller, faster chemistry , 1998, Nature.

[7]  W. R. Dean XVI. Note on the motion of fluid in a curved pipe , 1927 .

[8]  A. Manz,et al.  Microstructure for efficient continuous flow mixing , 1999 .

[9]  Brian N. Johnson,et al.  An integrated nanoliter DNA analysis device. , 1998, Science.

[10]  W. R. Dean LXXII. The stream-line motion of fluid in a curved pipe (Second paper) , 1928 .

[11]  L. Talbot,et al.  Flow in Curved Pipes , 1983 .

[12]  Julio M. Ottino,et al.  Designing Optimal Micromixers , 2004, Science.

[13]  D J Kim,et al.  An easily integrative and efficient micromixer and its application to the spectroscopic detection of glucose-catalyst reactions. , 2005, The Analyst.

[14]  Andreas Manz,et al.  Towards Integrated Continuous-Flow Chemical Reactors , 1999 .

[15]  Haroon S. Kheshgi,et al.  Viscous flow through a rotating square channel , 1985 .

[16]  Jian Wang,et al.  Thermoplastic elastomer gels: an advanced substrate for microfluidic chemical analysis systems. , 2005, Analytical chemistry.

[17]  Hiroyuki Nakamura,et al.  Interface configuration of the two layered laminar flow in a curved microchannel , 2004 .

[18]  Victor M Ugaz,et al.  Fluid mixing in planar spiral microchannels. , 2006, Lab on a chip.

[19]  Robin H. Liu,et al.  Passive mixing in a three-dimensional serpentine microchannel , 2000, Journal of Microelectromechanical Systems.

[20]  Douglas M. Ruthven,et al.  The residence time distribution for ideal laminar flow in helical tube , 1971 .

[21]  S. Thangam,et al.  Numerical study of secondary flows and roll-cell instabilities in rotating channel flow , 1983, Journal of Fluid Mechanics.

[22]  P. C. Chatwin,et al.  The effects of curvature and buoyancy on the laminar dispersion of solute in a horizontal tube , 1967, Journal of Fluid Mechanics.

[23]  D. Beebe,et al.  Physics and applications of microfluidics in biology. , 2002, Annual review of biomedical engineering.

[24]  Roger D. Kamm,et al.  Numerical studies of steady flow dispersion at low Dean number in a gently curving tube , 1986, Journal of Fluid Mechanics.

[25]  Surya Pratap Vanka,et al.  Numerical study of scalar mixing in curved channels at low Reynolds numbers , 2004 .

[26]  Victor M Ugaz,et al.  Printed circuit technology for fabrication of plastic-based microfluidic devices. , 2004, Analytical chemistry.

[27]  Peter B Howell,et al.  Design and evaluation of a Dean vortex-based micromixer. , 2004, Lab on a chip.

[28]  Yoshiko Yamaguchi,et al.  3-D Simulation and Visualization of Laminar Flow in a Microchannel with Hair-Pin Curves , 2004 .

[29]  F. Durst,et al.  Further contributions on the two-dimensional flow in a sudden expansion , 1997, Journal of Fluid Mechanics.

[30]  Dong Sung Kim,et al.  A serpentine laminating micromixer combining splitting/recombination and advection. , 2005, Lab on a chip.

[31]  L. Janssen Axial dispersion in laminar flow through coiled tubes , 1976 .

[32]  Peter B Howell,et al.  A microfluidic mixer with grooves placed on the top and bottom of the channel. , 2005, Lab on a chip.

[33]  T. Johnson,et al.  Rapid microfluidic mixing. , 2002, Analytical chemistry.

[34]  Steffen Hardt,et al.  Helical Flows and Chaotic Mixing in Curved Micro Channels , 2004 .

[35]  W. Gill,et al.  Laminar dispersion in curved tubes and channels , 1972, Journal of Fluid Mechanics.

[36]  Steffen Hardt,et al.  Simulation of helical flows in microchannels , 2004 .

[37]  S. Quake,et al.  Microfluidics: Fluid physics at the nanoliter scale , 2005 .

[38]  Stephen Wiggins,et al.  Introduction: mixing in microfluidics , 2004, Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences.

[39]  I. Mezić,et al.  Chaotic Mixer for Microchannels , 2002, Science.

[40]  Dong-Woo Cho,et al.  A barrier embedded Kenics micromixer , 2004 .

[41]  Howard A. Stone,et al.  ENGINEERING FLOWS IN SMALL DEVICES , 2004 .

[42]  Jonathan Knight,et al.  Microfluidics: Honey, I shrunk the lab , 2002, Nature.

[43]  J. Lewis,et al.  Chaotic mixing in three-dimensional microvascular networks fabricated by direct-write assembly , 2003, Nature materials.

[44]  Pinhas Z. Bar-Yoseph,et al.  Dean vortices-induced enhancement of mass transfer through an interface separating two immiscible liquids , 2003 .

[45]  Axel Günther,et al.  Micromixing of miscible liquids in segmented gas-liquid flow. , 2005, Langmuir : the ACS journal of surfaces and colloids.

[46]  Hassan Aref,et al.  Chaotic advection by laminar flow in a twisted pipe , 1989, Journal of Fluid Mechanics.