Stretchable, Ultratough, and Intrinsically Self‐Extinguishing Elastomers with Desirable Recyclability

Yijiao Xue; Jinyou Lin; Tao Wan; Yanlong Luo; Zhewen Ma; Yonghong Zhou; Bryan T. Tuten; Meng Zhang; Xinyong Tao; Pingan Song

doi:10.1002/advs.202207268

Advanced Science (Mar 2023)

Stretchable, Ultratough, and Intrinsically Self‐Extinguishing Elastomers with Desirable Recyclability

Yijiao Xue,
Jinyou Lin,
Tao Wan,
Yanlong Luo,
Zhewen Ma,
Yonghong Zhou,
Bryan T. Tuten,
Meng Zhang,
Xinyong Tao,
Pingan Song

Affiliations

Yijiao Xue: Institute of Chemical Industry of Forest Products Chinese Academy of Forestry (CAF) Nanjing 210042 China
Jinyou Lin: Shanghai Advanced Research Institute Chinese Academy of Sciences Shanghai 201204 China
Tao Wan: School of Materials Science and Engineering The University of New South Wales Sydney NSW 2502 Australia
Yanlong Luo: College of Science Nanjing Forestry University Nanjing 210037 China
Zhewen Ma: Department of Polymer Materials School of Materials Science and Engineering Tongji University Shanghai 201804 China
Yonghong Zhou: Institute of Chemical Industry of Forest Products Chinese Academy of Forestry (CAF) Nanjing 210042 China
Bryan T. Tuten: Centre for Materials Science School of Chemistry and Physics Queensland University of Technology Brisbane QLD 4000 Australia
Meng Zhang: Institute of Chemical Industry of Forest Products Chinese Academy of Forestry (CAF) Nanjing 210042 China
Xinyong Tao: College of Materials Science and Engineering Zhejiang University of Technology Hangzhou 310014 China
Pingan Song: Centre for Future Materials Unviersity of Southern Queensland Springfield 4300 Australia

DOI: https://doi.org/10.1002/advs.202207268
Journal volume & issue: Vol. 10, no. 9
pp. n/a – n/a

Abstract

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Abstract Advanced elastomers are increasingly used in emerging areas, for example, flexible electronics and devices, and these real‐world applications often require elastomers to be stretchable, tough and fire safe. However, to date there are few successes in achieving such a performance portfolio due to their different governing mechanisms. Herein, a stretchable, supertough, and self‐extinguishing polyurethane elastomers by introducing dynamic π–π stacking motifs and phosphorus‐containing moieties are reported. The resultant elastomer shows a large break strain of ≈2260% and a record‐high toughness (ca. 460 MJ m−3), which arises from its dynamic microphase‐separated microstructure resulting in increased entropic elasticity, and strain‐hardening at large strains. The elastomer also exhibits a self‐extinguishing ability thanks to the presence of both phosphorus‐containing units and π–π stacking interactions. Its promising applications as a reliable yet recyclable substrate for strain sensors are demonstrated. The work will help to expedite next‐generation sustainable advanced elastomers for flexible electronics and devices applications.

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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Abstract

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