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Literature DB >> 11328121

Dynamic pattern formation in a vesicle-generating microfluidic device.

T Thorsen¹, R W Roberts, F H Arnold, S R Quake.

Abstract

Spatiotemporal pattern formation occurs in a variety of nonequilibrium physical and chemical systems. Here we show that a microfluidic device designed to produce reverse micelles can generate complex, ordered patterns as it is continuously operated far from thermodynamic equilibrium. Flow in a microfluidic system is usually simple-viscous effects dominate and the low Reynolds number leads to laminar flow. Self-assembly of the vesicles into patterns depends on channel geometry and relative fluid pressures, enabling the production of motifs ranging from monodisperse droplets to helices and ribbons.

Year: 2001 PMID： 11328121 DOI： 10.1103/PhysRevLett.86.4163

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

188 in total

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Authors: Haifeng Yang; Xuan Qiao; Madan K Bhattacharyya; Liang Dong
Journal: Biomicrofluidics Date: 2011-10-13 Impact factor: 2.800

2. Formation of droplets of alternating composition in microfluidic channels and applications to indexing of concentrations in droplet-based assays.

Authors: Bo Zheng; Joshua D Tice; Rustem F Ismagilov
Journal: Anal Chem Date: 2004-09-01 Impact factor: 6.986

10. Preparation of monodisperse biodegradable polymer microparticles using a microfluidic flow-focusing device for controlled drug delivery.

Authors: Qiaobing Xu; Michinao Hashimoto; Tram T Dang; Todd Hoare; Daniel S Kohane; George M Whitesides; Robert Langer; Daniel G Anderson
Journal: Small Date: 2009-07 Impact factor: 13.281

Dynamic pattern formation in a vesicle-generating microfluidic device.

1. Microfluidic droplet encapsulation of highly motile single zoospores for phenotypic screening of an antioomycete chemical.

2. Formation of droplets of alternating composition in microfluidic channels and applications to indexing of concentrations in droplet-based assays.

3. Microbridge structures for uniform interval control of flowing droplets in microfluidic networks.

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5. Tuning bubbly structures in microchannels.

6. High-throughput injection with microfluidics using picoinjectors.

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8. Droplet CAR-Wash: continuous picoliter-scale immunocapture and washing.

9. Microfluidic Droplet Consistency Monitoring and Cell Detection via Laser Excitation.

10. Preparation of monodisperse biodegradable polymer microparticles using a microfluidic flow-focusing device for controlled drug delivery.