Microfluidic formation of monodispersed spherical microgels composed of triple-network crosslinking

Authors

Hanwei Zhang, NYU Grossman School of Medicine
Amy Betz, The Fu Foundation School of Engineering and Applied Science
Aisha Qadeer, New Jersey Institute of Technology
Daniel Attinger, The Fu Foundation School of Engineering and Applied Science
Weiliam Chen, NYU Grossman School of Medicine

Document Type

Article

Publication Date

9-5-2011

Abstract

A microfluidic emulsification method for producing monodispersed microgels from a triple interpenetrating network (3XN) hydrogel was reported. This 3XN system is comprised of minimally modified natural GRAS materials, partially oxidized dextran (Odex), Teleostean, and N-carboxyethyl chitosan (CEC), without the need of utilizing extraneous crosslinkers or photo-initiators, which has been proved to be a novel biodegradable and mechanically strong in-situ gelable hydrogel systems. A microfluidic chip was specifically designed to produce microgels from the 3XN hydrogel system. The study shows that microfluidic emulsification method could yield microgels with better size and morphology than the conventional in-emulsion-crosslinking method, and the size of microgels could be modulated by simply adjusting the flow rates of the oil and/or the individual precursor fluids. © 2011 Wiley Periodicals, Inc.

Identifier

79957882315 (Scopus)

Publication Title

Journal of Applied Polymer Science

External Full Text Location

https://doi.org/10.1002/app.34001

e-ISSN

10974628

ISSN

00218995

First Page

3093

Last Page

3100

Issue

5

Volume

121

Recommended Citation

Zhang, Hanwei; Betz, Amy; Qadeer, Aisha; Attinger, Daniel; and Chen, Weiliam, "Microfluidic formation of monodispersed spherical microgels composed of triple-network crosslinking" (2011). Faculty Publications. 11184.
https://digitalcommons.njit.edu/fac_pubs/11184