Bioinspired Mechanically Robust and Recyclable Hydrogel Microfibers Based on Hydrogen‐Bond Nanoclusters

Jingye Liang; Jishuai Xu; Jingxuan Zheng; Lijuan Zhou; Weiping Yang; Enzhao Liu; Yutian Zhu; Qiang Zhou; Yong Liu; Run Wang; Zunfeng Liu

doi:10.1002/advs.202401278

Advanced Science (Jun 2024)

Bioinspired Mechanically Robust and Recyclable Hydrogel Microfibers Based on Hydrogen‐Bond Nanoclusters

Jingye Liang,
Jishuai Xu,
Jingxuan Zheng,
Lijuan Zhou,
Weiping Yang,
Enzhao Liu,
Yutian Zhu,
Qiang Zhou,
Yong Liu,
Run Wang,
Zunfeng Liu

Affiliations

Jingye Liang: School of Textile Science and Engineering Tiangong University 399 West Binshui Road Tianjin 300387 China
Jishuai Xu: School of Textile Science and Engineering Tiangong University 399 West Binshui Road Tianjin 300387 China
Jingxuan Zheng: School of Textile Science and Engineering Tiangong University 399 West Binshui Road Tianjin 300387 China
Lijuan Zhou: School of Textile Science and Engineering Tiangong University 399 West Binshui Road Tianjin 300387 China
Weiping Yang: School of Textile Science and Engineering Tiangong University 399 West Binshui Road Tianjin 300387 China
Enzhao Liu: Tianjin Key Laboratory of Ionic‐Molecular Function of Cardiovascular disease Department of Cardiology Tianjin Institute of Cardiology the Second Hospital of Tianjin Medical University Tianjin 300211 China
Yutian Zhu: College of Materials Chemistry and Chemical Engineering Hangzhou Normal University Hangzhou 311121 China
Qiang Zhou: Department of Orthopaedics Tianjin First Central Hospital Nankai University Tianjin China
Yong Liu: School of Textile Science and Engineering Tiangong University 399 West Binshui Road Tianjin 300387 China
Run Wang: School of Textile Science and Engineering Tiangong University 399 West Binshui Road Tianjin 300387 China
Zunfeng Liu: State Key Laboratory of Medicinal Chemical Biology Key Laboratory of Functional Polymer Materials College of Chemistry Frontiers Science Center for New Organic Matter Nankai University 94 Weijin Road Tianjin 300071 China

DOI: https://doi.org/10.1002/advs.202401278
Journal volume & issue: Vol. 11, no. 23
pp. n/a – n/a

Abstract

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Abstract Mechanically robust hydrogel fibers have demonstrated great potential in energy dissipation and shock‐absorbing applications. However, developing such materials that are recyclable, energy‐efficient, and environmentally friendly remains an enormous challenge. Herein, inspired by spider silk, a continuous and scalable method is introduced for spinning a polyacrylamide hydrogel microfiber with a hierarchical sheath‐core structure under ambient conditions. Applying pre‐stretch and twist in the as‐spun hydrogel microfibers results in a tensile strength of 525 MPa, a toughness of 385 MJ m−3, and a damping capacity of 99%, which is attributed to the reinforcement of hydrogen‐bond nanoclusters within the microfiber matrix. Moreover, it maintains both structural and mechanical stability for several days, and can be directly dissolved in water, providing a sustainable spinning dope for re‐spinning into new microfibers. This work provides a new strategy for the spinning of robust and recyclable hydrogel‐based fibrous materials.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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