Continuous production of hollow hydrogel fibers with graphene inner wall

Kai Hou; Yun Yin Lin; Benjamin S. Hsiao; Mei Fang Zhu

doi:10.4028/www.scientific.net/MSF.898.2197

Continuous production of hollow hydrogel fibers with graphene inner wall

Kai Hou
, Yun Yin Lin
, Benjamin S. Hsiao
, Mei Fang Zhu

Chemistry

Stony Brook University

Donghua University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

Hydrogel fiber with spatiotemporal properties such as great aspect ratio, large surface area/volume ratio, orientation and knittability, has been considered as the potential application materials in the field of biomedicine area. On the basis of dynamic-crosslinking-spinning we reported before, a novel GO/PEG-PEGDA core-sheath hydrogel fiber was fabricated continuously. Moreover, uniform rGO-PEGDA hollow fiber was obtain after reduction process. The diameter of core and sheath can be controlled separately by adjusting extrusion rate of core solution and sheath solution, respectively. This novel series GO hybrid hydrogel fibers with core-shell or hollow structure have potential application on nerve and muscle tissue engineering.

Original language	English
Title of host publication	IUMRS International Conference in Asia - IUMRS-ICA 2016
Editors	Yafang Han, Baiqing Xiong, Jun Zhang, Xuefeng Liu, Jijun Zhao, Runhua Fan, Zuoren Nie, Meifang Zhu
Publisher	Trans Tech Publications Ltd
Pages	2197-2204
Number of pages	8
ISBN (Print)	9783035711516
DOIs	https://doi.org/10.4028/www.scientific.net/MSF.898.2197
State	Published - 2017
Event	17th IUMRS International Conference in Asia, IUMRS-ICA 2016 - Qingdao, China Duration: Oct 20 2016 → Oct 24 2016

Publication series

Name	Materials Science Forum
Volume	898 MSF

Conference

Conference	17th IUMRS International Conference in Asia, IUMRS-ICA 2016
Country/Territory	China
City	Qingdao
Period	10/20/16 → 10/24/16

Keywords

Core-shell
Graphene
Hollow fiber
Hydrogel fiber

Access to Document

10.4028/www.scientific.net/MSF.898.2197

Cite this

Hou, K., Lin, Y. Y., Hsiao, B. S., & Zhu, M. F. (2017). Continuous production of hollow hydrogel fibers with graphene inner wall. In Y. Han, B. Xiong, J. Zhang, X. Liu, J. Zhao, R. Fan, Z. Nie, & M. Zhu (Eds.), IUMRS International Conference in Asia - IUMRS-ICA 2016 (pp. 2197-2204). (Materials Science Forum; Vol. 898 MSF). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/MSF.898.2197

Hou, Kai ; Lin, Yun Yin ; Hsiao, Benjamin S. et al. / Continuous production of hollow hydrogel fibers with graphene inner wall. IUMRS International Conference in Asia - IUMRS-ICA 2016. editor / Yafang Han ; Baiqing Xiong ; Jun Zhang ; Xuefeng Liu ; Jijun Zhao ; Runhua Fan ; Zuoren Nie ; Meifang Zhu. Trans Tech Publications Ltd, 2017. pp. 2197-2204 (Materials Science Forum).

@inproceedings{3481b626f4274e219b16f761313dcb93,

title = "Continuous production of hollow hydrogel fibers with graphene inner wall",

abstract = "Hydrogel fiber with spatiotemporal properties such as great aspect ratio, large surface area/volume ratio, orientation and knittability, has been considered as the potential application materials in the field of biomedicine area. On the basis of dynamic-crosslinking-spinning we reported before, a novel GO/PEG-PEGDA core-sheath hydrogel fiber was fabricated continuously. Moreover, uniform rGO-PEGDA hollow fiber was obtain after reduction process. The diameter of core and sheath can be controlled separately by adjusting extrusion rate of core solution and sheath solution, respectively. This novel series GO hybrid hydrogel fibers with core-shell or hollow structure have potential application on nerve and muscle tissue engineering.",

keywords = "Core-shell, Graphene, Hollow fiber, Hydrogel fiber",

author = "Kai Hou and Lin, \{Yun Yin\} and Hsiao, \{Benjamin S.\} and Zhu, \{Mei Fang\}",

note = "Publisher Copyright: {\textcopyright} 2017 Trans Tech Publications, Switzerland.; 17th IUMRS International Conference in Asia, IUMRS-ICA 2016 ; Conference date: 20-10-2016 Through 24-10-2016",

year = "2017",

doi = "10.4028/www.scientific.net/MSF.898.2197",

language = "English",

isbn = "9783035711516",

series = "Materials Science Forum",

publisher = "Trans Tech Publications Ltd",

pages = "2197--2204",

editor = "Yafang Han and Baiqing Xiong and Jun Zhang and Xuefeng Liu and Jijun Zhao and Runhua Fan and Zuoren Nie and Meifang Zhu",

booktitle = "IUMRS International Conference in Asia - IUMRS-ICA 2016",

}

Hou, K, Lin, YY, Hsiao, BS & Zhu, MF 2017, Continuous production of hollow hydrogel fibers with graphene inner wall. in Y Han, B Xiong, J Zhang, X Liu, J Zhao, R Fan, Z Nie & M Zhu (eds), IUMRS International Conference in Asia - IUMRS-ICA 2016. Materials Science Forum, vol. 898 MSF, Trans Tech Publications Ltd, pp. 2197-2204, 17th IUMRS International Conference in Asia, IUMRS-ICA 2016, Qingdao, China, 10/20/16. https://doi.org/10.4028/www.scientific.net/MSF.898.2197

Continuous production of hollow hydrogel fibers with graphene inner wall. / Hou, Kai; Lin, Yun Yin; Hsiao, Benjamin S. et al.
IUMRS International Conference in Asia - IUMRS-ICA 2016. ed. / Yafang Han; Baiqing Xiong; Jun Zhang; Xuefeng Liu; Jijun Zhao; Runhua Fan; Zuoren Nie; Meifang Zhu. Trans Tech Publications Ltd, 2017. p. 2197-2204 (Materials Science Forum; Vol. 898 MSF).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Continuous production of hollow hydrogel fibers with graphene inner wall

AU - Hou, Kai

AU - Lin, Yun Yin

AU - Hsiao, Benjamin S.

AU - Zhu, Mei Fang

PY - 2017

Y1 - 2017

N2 - Hydrogel fiber with spatiotemporal properties such as great aspect ratio, large surface area/volume ratio, orientation and knittability, has been considered as the potential application materials in the field of biomedicine area. On the basis of dynamic-crosslinking-spinning we reported before, a novel GO/PEG-PEGDA core-sheath hydrogel fiber was fabricated continuously. Moreover, uniform rGO-PEGDA hollow fiber was obtain after reduction process. The diameter of core and sheath can be controlled separately by adjusting extrusion rate of core solution and sheath solution, respectively. This novel series GO hybrid hydrogel fibers with core-shell or hollow structure have potential application on nerve and muscle tissue engineering.

AB - Hydrogel fiber with spatiotemporal properties such as great aspect ratio, large surface area/volume ratio, orientation and knittability, has been considered as the potential application materials in the field of biomedicine area. On the basis of dynamic-crosslinking-spinning we reported before, a novel GO/PEG-PEGDA core-sheath hydrogel fiber was fabricated continuously. Moreover, uniform rGO-PEGDA hollow fiber was obtain after reduction process. The diameter of core and sheath can be controlled separately by adjusting extrusion rate of core solution and sheath solution, respectively. This novel series GO hybrid hydrogel fibers with core-shell or hollow structure have potential application on nerve and muscle tissue engineering.

KW - Core-shell

KW - Graphene

KW - Hollow fiber

KW - Hydrogel fiber

UR - https://www.scopus.com/pages/publications/85028682684

U2 - 10.4028/www.scientific.net/MSF.898.2197

DO - 10.4028/www.scientific.net/MSF.898.2197

M3 - Conference contribution

SN - 9783035711516

T3 - Materials Science Forum

SP - 2197

EP - 2204

BT - IUMRS International Conference in Asia - IUMRS-ICA 2016

A2 - Han, Yafang

A2 - Xiong, Baiqing

A2 - Zhang, Jun

A2 - Liu, Xuefeng

A2 - Zhao, Jijun

A2 - Fan, Runhua

A2 - Nie, Zuoren

A2 - Zhu, Meifang

PB - Trans Tech Publications Ltd

T2 - 17th IUMRS International Conference in Asia, IUMRS-ICA 2016

Y2 - 20 October 2016 through 24 October 2016

ER -

Continuous production of hollow hydrogel fibers with graphene inner wall

Abstract

Publication series

Conference

Keywords

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