2006
DOI: 10.1073/pnas.0507976103
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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 cons… Show more

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Cited by 295 publications
(223 citation statements)
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“…C ontrol of fluid streams is useful in biological processing [1][2][3] , chemical reaction control 4,5 , and creating structured materials [6][7][8] ; however, general strategies to engineer the cross-sectional form and motion of fluid streams have been limited. Strategies to mix fluids 1,9,10 and control particles 11,12 using engineered systems exist, often relying on chaotic fluid transformations as an effective tool 13,14 to disrupt sustained regions of order in the flow 10,15 .…”
mentioning
confidence: 99%
See 1 more Smart Citation
“…C ontrol of fluid streams is useful in biological processing [1][2][3] , chemical reaction control 4,5 , and creating structured materials [6][7][8] ; however, general strategies to engineer the cross-sectional form and motion of fluid streams have been limited. Strategies to mix fluids 1,9,10 and control particles 11,12 using engineered systems exist, often relying on chaotic fluid transformations as an effective tool 13,14 to disrupt sustained regions of order in the flow 10,15 .…”
mentioning
confidence: 99%
“…Strategies to mix fluids 1,9,10 and control particles 11,12 using engineered systems exist, often relying on chaotic fluid transformations as an effective tool 13,14 to disrupt sustained regions of order in the flow 10,15 . Rather than apply flow transformations to prevent order, here we develop a hierarchical approach to engineer fluid streams into a broad class of complex configurations.…”
mentioning
confidence: 99%
“…In the first mode, the disordered droplet distributions are attributed to the insufficient inertia and the Dean mixing effect of the DS structure [42,43]. This can be predicted from the ratio of the magnitudes of inertial lift force and Dean drag force though they both are very weak.…”
Section: Three Migration Modes Of the Dual Droplet Trainsmentioning
confidence: 99%
“…grooves, chevrons) in Stokes flow 4 or curved channels with finite inertia. 1,5,6 Grooved channels have been widely used to mix flows, 7 and more recently, combinations of grooves have been combined to shape flows 8 in a programmable manner.…”
Section: Introductionmentioning
confidence: 99%
“…6 Experimental work has made use of flow separation and recirculation that form downstream of obstacles, where the fore-aft symmetry is broken in inertial flow around a geometry placed in the cross section of the fluid stream. 1,12 More recently, microscale cylinders (pillars) have been used to induce secondary flow (separate from the flow separation) and this has been used in tandem with inertial focusing in order to reposition particle streams at high throughput. 13 A single cylindrical pillar at a variety of lateral positions in a microchannel has been found to induce a set of local fundamental deformations in inertial flow around each pillar.…”
Section: Introductionmentioning
confidence: 99%