2003
DOI: 10.1038/nmat863
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Chaotic mixing in three-dimensional microvascular networks fabricated by direct-write assembly

Abstract: The creation of geometrically complex fluidic devices is a subject of broad fundamental and technological interest. Here, we demonstrate the fabrication of three-dimensional (3D) microvascular networks through direct-write assembly of a fugitive organic ink. This approach yields a pervasive network of smooth cylindrical channels (approximately 10-300 microm) with defined connectivity. Square-spiral towers, isolated within this vascular network, promote fluid mixing through chaotic advection. These vertical tow… Show more

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Cited by 645 publications
(491 citation statements)
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References 23 publications
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“…Scaffold preparation: Fugitive scaffolds were assembled by the direct-write process as detailed by Therriault et al 27 Ink loaded into pressurized syringes was pattern-deposited onto substrates using a robotic positioning platform (Aerotek) building a planar line pattern, then building a second layer above that and repeating to yield a three-dimensional scaffold. Multilayers were assembled onto scaffolds by alternating immersion in aqueous solutions/dispersions of 10 -2 M PDADMAC and 1mg/mL halloysite with three intermediate Milli-Q pure rinse baths in a Stratosequence6 (Nanostrata, Inc.) dipper.…”
Section: Methodsmentioning
confidence: 99%
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“…Scaffold preparation: Fugitive scaffolds were assembled by the direct-write process as detailed by Therriault et al 27 Ink loaded into pressurized syringes was pattern-deposited onto substrates using a robotic positioning platform (Aerotek) building a planar line pattern, then building a second layer above that and repeating to yield a three-dimensional scaffold. Multilayers were assembled onto scaffolds by alternating immersion in aqueous solutions/dispersions of 10 -2 M PDADMAC and 1mg/mL halloysite with three intermediate Milli-Q pure rinse baths in a Stratosequence6 (Nanostrata, Inc.) dipper.…”
Section: Methodsmentioning
confidence: 99%
“…7,8,[23][24][25][26] Our research group has studied networks made using direct-write assembly, in which a hydrocarbon microcrystalline wax is extruded to form the scaffold using robotically controlled deposition. 27 With appropriate methods of scaffold fabrication, the advantage of this second method is greater control over network design as channels can have non-linear shapes and linkages, but due to the absence of load-bearing glass fibers these materials experience a reduction in bulk mechanical properties. When subjected to high loads, unreinforced microchannels can provide paths for crack propagation and act as strain concentrators leading to microcrack nucleation.…”
mentioning
confidence: 99%
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“…116 The group used an additive process known as direct write assembly to fabricate a network of smooth cylindrical channels (~ 10-300 µm). The direct write assembly manufacturing process begins with the deposition of an organic ink onto a moving X-Y build platform.…”
Section: Additive Manufacture Of Fluidic Devicesmentioning
confidence: 99%
“…26 The zig-zag-shaped channel mixers require a relatively high Reynolds number (>80), whereas the mixers based on a modified Telsa structure exhibit good mixing efficiency even at a relatively low Reynolds number (>5) owing to the Coanda effect. Reports of 3D serpentine structures 28, 31 have also been published with various designs, most of which need the Reynolds number to be higher than 10 and the channels longer than 10 mm. Stroock et al made staggered herringbone patterned grooves on a channel wall to generate chaotic advection and obtained good mixing performance over a wide range of Reynolds numbers (1 < Re <100).…”
Section: Introductionmentioning
confidence: 99%