Slit-Surface Electrospinning: A Novel Process Developed for High-Throughput Fabrication of Core-Sheath Fibers

Author(s)

Yan, Xuri; Marini, John; Mulligan, Robert; Deleault, Abby; Sharma, Upma; Brenner, Michael P.; Rutledge, Gregory C.; Freyman, Toby; Pham, Quynh P.; ... Show more Show less

Abstract

In this work, we report on the development of slit-surface electrospinning – a process that co-localizes two solutions along a slit surface to spontaneously emit multiple core-sheath cone-jets at rates of up to 1 L/h. To the best of our knowledge, this is the first time that production of electrospun core-sheath fibers has been scaled to this magnitude. Fibers produced in this study were defect-free (i.e. non-beaded) and core-sheath geometry was visually confirmed under scanning electron microscopy. The versatility of our system was demonstrated by fabrication of (1) fibers encapsulating a drug, (2) bicomponent fibers, (3) hollow fibers, and (4) fibers from a polymer that is not normally electrospinnable. Additionally, we demonstrate control of the process by modulating parameters such as flow rate, solution viscosity, and fixture design. The technological achievements demonstrated in this work significantly advance core-sheath electrospinning towards commercial and manufacturing viability.

Date issued

2015-05

URI

http://hdl.handle.net/1721.1/97121

Department

Massachusetts Institute of Technology. Department of Chemical Engineering

Journal

PLOS ONE

Publisher

Public Library of Science

Citation

Yan, Xuri, John Marini, Robert Mulligan, Abby Deleault, Upma Sharma, Michael P. Brenner, Gregory C. Rutledge, Toby Freyman, and Quynh P. Pham. “Slit-Surface Electrospinning: A Novel Process Developed for High-Throughput Fabrication of Core-Sheath Fibers.” Edited by Dario Pisignano. PLOS ONE 10, no. 5 (May 4, 2015): e0125407.

Version: Final published version

ISSN

1932-6203