2009
DOI: 10.1021/la9004449
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Synthesizing Microcapsules with Controlled Geometrical and Mechanical Properties with Microfluidic Double Emulsion Technology

Abstract: Using lithography-based microfluidic technology, we produce monodisperse single-core microcapsules with UV-cured TPGDA (triprophylene glycol diacrylate) shells. We show that the geometrical and mechanical characteristics of the microcapsules can be predicted on a quantitative basis and tuned by varying the flow conditions. Shell thicknesses are varied by changing the flow rates of the inner or intermediate phases, according to mass conservation constraint. Off-centering of the core with respect to the shell is… Show more

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Cited by 110 publications
(92 citation statements)
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“…Double emulsions have enormous potential for a wide range of applications including vesicle preparation, 1 drug delivery, 2 chemical extraction, 3 materials synthesis, [4][5][6][7][8] and the controlled release of encapsulated actives. 9 They can also be analysed in commercial fluorescenceactivated cell sorting (FACS) machines, where the requirement for an aqueous carrier fluid makes the technique incompatible with simple water-in-oil single emulsions with this technique.…”
Section: Introductionmentioning
confidence: 99%
“…Double emulsions have enormous potential for a wide range of applications including vesicle preparation, 1 drug delivery, 2 chemical extraction, 3 materials synthesis, [4][5][6][7][8] and the controlled release of encapsulated actives. 9 They can also be analysed in commercial fluorescenceactivated cell sorting (FACS) machines, where the requirement for an aqueous carrier fluid makes the technique incompatible with simple water-in-oil single emulsions with this technique.…”
Section: Introductionmentioning
confidence: 99%
“…Microfluidic devices with two consecutive T-junctions (Okushima et al, 2004;Nisisako et al, 2005), or two flow-focusing regions (Seo et al, 2007;Chen et al, 2009b;Hennequin et al, 2009), with local surface modification, were designed for the formation of double emulsions. A coaxial microcapillary device has also been developed by Utada et al (2005) microcapillary technique.…”
Section: Double-emulsion Based Methodsmentioning
confidence: 99%
“…[208] Zusätzlich kann die Dicke der Schale über die Flussgeschwindigkeiten von Innen-oder Zwischenphase eingestellt werden, und die Kerne lassen sich bezüglich der Schale unsymmetrisch platzieren, indem man die Viskosität der Schalenphase variiert. [209] Zur Herstellung von Nanopartikel-Kolloidosomen wurde die Ölphase verdampft. [210] Über monodisperse Partikel mit einstellbarer Form hinaus lassen sich in laminaren Flüssen auch Partikel erzeugen, die aus Bereichen mit unterschiedlichen Polymeren bestehen.…”
Section: Partikelpolymerisationunclassified