Simple microfluidic formation of highly heterogeneous microfibers using a combination of sheath units

D. H. Yoon; K. Kobayashi; D. Tanaka; T. Sekiguchi; S. Shoji

doi:10.1039/c7lc00157f

Simple microfluidic formation of highly heterogeneous microfibers using a combination of sheath units

D. H. Yoon^*, K. Kobayashi, D. Tanaka, T. Sekiguchi, S. Shoji

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

This paper presents the formation of complex cross-sectional microfibers using three-dimensional microfluidic devices. The compartments and shapes of core and shell layers in the microfibers were independently controlled via three-dimensional fluidic channels fabricated by the combination of sheath units. The number of layers is easily expanded by the stacking of these units. Therefore, the highly heterogeneous microfibers of alginate hydrogel are obtained in polydimethylsiloxane structures. This widely expandable method has great potential for the development of functional and complex fiber-shaped materials.

Original language	English
Pages (from-to)	1481-1486
Number of pages	6
Journal	Lab on a Chip
Volume	17
Issue number	8
DOIs	https://doi.org/10.1039/c7lc00157f
Publication status	Published - 2017 Apr 21

ASJC Scopus subject areas

Bioengineering
Biochemistry
Chemistry(all)
Biomedical Engineering

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abstract = "This paper presents the formation of complex cross-sectional microfibers using three-dimensional microfluidic devices. The compartments and shapes of core and shell layers in the microfibers were independently controlled via three-dimensional fluidic channels fabricated by the combination of sheath units. The number of layers is easily expanded by the stacking of these units. Therefore, the highly heterogeneous microfibers of alginate hydrogel are obtained in polydimethylsiloxane structures. This widely expandable method has great potential for the development of functional and complex fiber-shaped materials.",

author = "Yoon, {D. H.} and K. Kobayashi and D. Tanaka and T. Sekiguchi and S. Shoji",

note = "Funding Information: This work is partly supported by the Japan Ministry of Education, Culture, Sports Science & Technology (MEXT) Grant-in-Aid for Scientific Basic Research (A) No. 16H02349. The authors thank the MEXT Nanotechnology Platform Support Project of Waseda University. Publisher Copyright: {\textcopyright} The Royal Society of Chemistry.",

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AU - Yoon, D. H.

AU - Kobayashi, K.

AU - Tanaka, D.

AU - Sekiguchi, T.

AU - Shoji, S.

N1 - Funding Information: This work is partly supported by the Japan Ministry of Education, Culture, Sports Science & Technology (MEXT) Grant-in-Aid for Scientific Basic Research (A) No. 16H02349. The authors thank the MEXT Nanotechnology Platform Support Project of Waseda University. Publisher Copyright: © The Royal Society of Chemistry.

PY - 2017/4/21

Y1 - 2017/4/21

N2 - This paper presents the formation of complex cross-sectional microfibers using three-dimensional microfluidic devices. The compartments and shapes of core and shell layers in the microfibers were independently controlled via three-dimensional fluidic channels fabricated by the combination of sheath units. The number of layers is easily expanded by the stacking of these units. Therefore, the highly heterogeneous microfibers of alginate hydrogel are obtained in polydimethylsiloxane structures. This widely expandable method has great potential for the development of functional and complex fiber-shaped materials.

AB - This paper presents the formation of complex cross-sectional microfibers using three-dimensional microfluidic devices. The compartments and shapes of core and shell layers in the microfibers were independently controlled via three-dimensional fluidic channels fabricated by the combination of sheath units. The number of layers is easily expanded by the stacking of these units. Therefore, the highly heterogeneous microfibers of alginate hydrogel are obtained in polydimethylsiloxane structures. This widely expandable method has great potential for the development of functional and complex fiber-shaped materials.

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Simple microfluidic formation of highly heterogeneous microfibers using a combination of sheath units

Abstract

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