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Literature DB >> 16645036

Multivortex micromixing.

Abstract

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.

Mesh：

Substances：
DNA
calf thymus DNA

Year: 2006 PMID： 16645036 PMCID： PMC1464325 DOI： 10.1073/pnas.0507976103

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

18 in total

1. Chaotic mixer for microchannels.

Authors: Abraham D Stroock; Stephan K W Dertinger; Armand Ajdari; Igor Mezic; Howard A Stone; George M Whitesides
Journal: Science Date: 2002-01-25 Impact factor: 47.728

2. Rapid microfluidic mixing.

Authors: Timothy J Johnson; David Ross; Laurie E Locascio
Journal: Anal Chem Date: 2002-01-01 Impact factor: 6.986

Review 3. Physics and applications of microfluidics in biology.

Authors: David J Beebe; Glennys A Mensing; Glenn M Walker
Journal: Annu Rev Biomed Eng Date: 2002-03-22 Impact factor: 9.590

4. Static micromixers based on large-scale industrial mixer geometry.

Authors: A Bertsch; S Heimgartner; P Cousseau; P Renaud
Journal: Lab Chip Date: 2001-08-09 Impact factor: 6.799

5. Design and evaluation of a Dean vortex-based micromixer.

Authors: Peter B Howell; David R Mott; Joel P Golden; Frances S Ligler
Journal: Lab Chip Date: 2004-11-11 Impact factor: 6.799

6. An easily integrative and efficient micromixer and its application to the spectroscopic detection of glucose-catalyst reactions.

Authors: D J Kim; H J Oh; T H Park; J B Choo; S H Lee
Journal: Analyst Date: 2005-01-24 Impact factor: 4.616

7. Batch-mode mixing on centrifugal microfluidic platforms.

Authors: M Grumann; A Geipel; L Riegger; R Zengerle; J Ducrée
Journal: Lab Chip Date: 2005-04-07 Impact factor: 6.799

8. A serpentine laminating micromixer combining splitting/recombination and advection.

Authors: Dong Sung Kim; Se Hwan Lee; Tai Hun Kwon; Chong H Ahn
Journal: Lab Chip Date: 2005-04-26 Impact factor: 6.799

9. An integrated nanoliter DNA analysis device.

Authors: M A Burns; B N Johnson; S N Brahmasandra; K Handique; J R Webster; M Krishnan; T S Sammarco; P M Man; D Jones; D Heldsinger; C H Mastrangelo; D T Burke
Journal: Science Date: 1998-10-16 Impact factor: 47.728

10. Thermoplastic elastomer gels: an advanced substrate for microfluidic chemical analysis systems.

Authors: Arjun P Sudarsan; Jian Wang; Victor M Ugaz
Journal: Anal Chem Date: 2005-08-15 Impact factor: 6.986

35 in total

1. Simulation and experimental determination of the online separation of blood components with the help of microfluidic cascading spirals.

Authors: Lisa Sprenger; Silvio Dutz; Thomas Schneider; Stefan Odenbach; Urs O Häfeli
Journal: Biomicrofluidics Date: 2015-07-29 Impact factor: 2.800

9. Microfluidic Paper-Based Analytical Devices (μPADs) and Micro Total Analysis Systems (μTAS): Development, Applications and Future Trends.

Authors: Piotr Lisowski; Paweł K Zarzycki
Journal: Chromatographia Date: 2013-02-22 Impact factor: 2.044

10. Nanofluids research: key issues.

Authors: Liqiu Wang; Jing Fan
Journal: Nanoscale Res Lett Date: 2010-05-22 Impact factor: 4.703

Multivortex micromixing.

1. Chaotic mixer for microchannels.

2. Rapid microfluidic mixing.

Review 3. Physics and applications of microfluidics in biology.

4. Static micromixers based on large-scale industrial mixer geometry.

5. Design and evaluation of a Dean vortex-based micromixer.

6. An easily integrative and efficient micromixer and its application to the spectroscopic detection of glucose-catalyst reactions.

7. Batch-mode mixing on centrifugal microfluidic platforms.

8. A serpentine laminating micromixer combining splitting/recombination and advection.

9. An integrated nanoliter DNA analysis device.

10. Thermoplastic elastomer gels: an advanced substrate for microfluidic chemical analysis systems.

1. Simulation and experimental determination of the online separation of blood components with the help of microfluidic cascading spirals.

2. Continuous inertial focusing, ordering, and separation of particles in microchannels.

3. Characterization of microfluidic mixing and reaction in microchannels via analysis of cross-sectional patterns.

4. "Do-it-in-classroom" fabrication of microfluidic systems by replica moulding of pasta structures.

5. Engineering fluid flow using sequenced microstructures.

6. High-throughput particle separation and concentration using spiral inertial filtration.

7. On-chip isolation and enrichment of circulating cell-free DNA using microfluidic device.

8. A Planar Microfluidic Mixer Based on Logarithmic Spirals.

9. Microfluidic Paper-Based Analytical Devices (μPADs) and Micro Total Analysis Systems (μTAS): Development, Applications and Future Trends.

10. Nanofluids research: key issues.