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Literature DB >> 31017163

On-the-fly exchangeable microfluidic nozzles for facile production of various monodisperse micromaterials.

Tom Kamperman¹, Bas van Loo¹, Melvin Gurian¹, Sieger Henke¹, Marcel Karperien¹, Jeroen Leijten¹.

Abstract

Microfluidic manufacturing platforms have advanced the production of monodisperse, shape-controlled, and chemically defined micromaterials. However, conventional microfabrication platforms are typically designed and fabricated as single-purpose and single-use tools, which limits their efficiency, versatility, and overall potential. We here present an on-the-fly exchangeable nozzle concept that operates in a transparent, 3D, and reusable microfluidic device produced without cleanroom technology. The facile exchange and repositioning of the nozzles readily enables the production of monodisperse water-in-oil and oil-in-water emulsions, solid and core-shell microspheres, microfibers, and even Janus type micromaterials with controlled diameters ranging from 10 to 1000 μm using a single microfluidic device.

Entities: Chemical Disease Gene Species

Mesh：

Substances：
Oils
Water

Year: 2019 PMID： 31017163 PMCID： PMC6555637 DOI： 10.1039/c9lc00054b

Source DB: PubMed Journal: Lab Chip ISSN： 1473-0189 Impact factor: 6.799

21 in total

1. Hydrophilic PDMS microchannels for high-throughput formation of oil-in-water microdroplets and water-in-oil-in-water double emulsions.

Authors: Wolfgang-Andreas C Bauer; Martin Fischlechner; Chris Abell; Wilhelm T S Huck
Journal: Lab Chip Date: 2010-05-05 Impact factor: 6.799

2. Enzymatic outside-in cross-linking enables single-step microcapsule production for high-throughput three-dimensional cell microaggregate formation.

Authors: B van Loo; S S Salehi; S Henke; A Shamloo; T Kamperman; M Karperien; J Leijten
Journal: Mater Today Bio Date: 2020-03-06

2 in total

On-the-fly exchangeable microfluidic nozzles for facile production of various monodisperse micromaterials.

1. Hydrophilic PDMS microchannels for high-throughput formation of oil-in-water microdroplets and water-in-oil-in-water double emulsions.

2. Hysteresis in multiphase microfluidics at a T-junction.

3. Fabrication of microgel particles with complex shape via selective polymerization of aqueous two-phase systems.

4. Generation of monodisperse particles by using microfluidics: control over size, shape, and composition.

5. High-performance flow-focusing geometry for spontaneous generation of monodispersed droplets.

6. Experimental observations of the squeezing-to-dripping transition in T-shaped microfluidic junctions.

7. Single Cell Microgel Based Modular Bioinks for Uncoupled Cellular Micro- and Macroenvironments.

8. Centering Single Cells in Microgels via Delayed Crosslinking Supports Long-Term 3D Culture by Preventing Cell Escape.

9. "Off-the-shelf" microfluidic devices for the production of liposomes for drug delivery.

10. High-precision modular microfluidics by micromilling of interlocking injection-molded blocks.

1. Scalable fabrication, compartmentalization and applications of living microtissues.

2. Enzymatic outside-in cross-linking enables single-step microcapsule production for high-throughput three-dimensional cell microaggregate formation.