2010
DOI: 10.1007/s10404-010-0722-0
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A highly uniform lamination micromixer with wedge shaped inlet channels for time resolved infrared spectroscopy

Abstract: We present a horizontal multi-lamination micromixer with specially wedge shaped vertical fluid inlets for fast and highly uniform fluid mixing in the low millisecond range. The four-layer laminar flow is created by a fluidic distribution network, reducing the amount of fluid connectors to the macroscopic world to two. All the geometries of the channel inlets and the distribution network were optimized for low flow rates and hence for low sample consumption using CFD simulations. The device materials applied fe… Show more

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Cited by 74 publications
(37 citation statements)
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“…14,15 Of the various micromixers reported in the past years, passive mixers, which have included lamination, 16,17 intersecting or disturbing channels, 18,19 and droplet-based platforms, 20,21 have not required energy input or moving parts. Passive mixers are, however, difficult to integrate into organs-on-a-chip systems due to the complexity of their structures.…”
Section: Introductionmentioning
confidence: 99%
“…14,15 Of the various micromixers reported in the past years, passive mixers, which have included lamination, 16,17 intersecting or disturbing channels, 18,19 and droplet-based platforms, 20,21 have not required energy input or moving parts. Passive mixers are, however, difficult to integrate into organs-on-a-chip systems due to the complexity of their structures.…”
Section: Introductionmentioning
confidence: 99%
“…Given the latter, the average mixing time τ mix can be calculated using the following equation: τitalicmixx2/D where x is the diffusion length (the distance that the solute needs to travel during the diffusion), and D is the diffusion coefficient. In low Re microfluidic systems, various mixing mechanisms have been demonstrated [17] using active approaches, such as magnetic [18,19], electrokinetic [20], acoustic [2123], optical based [24] as well as passive approaches such as tesla microstructures [25,26], serpentine channels [27], and lamination [28]. These approaches either require an external mechanism to induce mixing or lacks the dynamic control of the fluid interface.…”
Section: Hydrodynamic Focusing (Hf) Devicesmentioning
confidence: 99%
“…Passive mixing methods use special configurations to speed up the mixing rate ( Figure 3). Wedge shaped inlet structures were used to assist flow lamination through inertia effects (Buchegger et al, 2011). Serpentine or zigzag shapes are frequently used as microchannels to increase the ratio of the channel surface area to its volume.…”
Section: Driving and Control Of Fluidsmentioning
confidence: 99%