Ultrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure

Strong self-healing materials with high healing efficiency are of great use in many fields but their fabrication is extremely challenging. Here, the authors present a robust self-healing material by incorporating high density noncovalent bonds at the interfaces between dentritic tannic acid-modified...

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Autores principales: Yuyan Wang, Xin Huang, Xinxing Zhang
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/dcf75c64c6ab4feaa121970f0e7594b5
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spelling oai:doaj.org-article:dcf75c64c6ab4feaa121970f0e7594b52021-12-02T13:34:29ZUltrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure10.1038/s41467-021-21577-72041-1723https://doaj.org/article/dcf75c64c6ab4feaa121970f0e7594b52021-02-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-21577-7https://doaj.org/toc/2041-1723Strong self-healing materials with high healing efficiency are of great use in many fields but their fabrication is extremely challenging. Here, the authors present a robust self-healing material by incorporating high density noncovalent bonds at the interfaces between dentritic tannic acid-modified tungsten disulfide nanosheets and a polyurethane matrix to collectively produce a strong interfacial interaction.Yuyan WangXin HuangXinxing ZhangNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-10 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Yuyan Wang
Xin Huang
Xinxing Zhang
Ultrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure
description Strong self-healing materials with high healing efficiency are of great use in many fields but their fabrication is extremely challenging. Here, the authors present a robust self-healing material by incorporating high density noncovalent bonds at the interfaces between dentritic tannic acid-modified tungsten disulfide nanosheets and a polyurethane matrix to collectively produce a strong interfacial interaction.
format article
author Yuyan Wang
Xin Huang
Xinxing Zhang
author_facet Yuyan Wang
Xin Huang
Xinxing Zhang
author_sort Yuyan Wang
title Ultrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure
title_short Ultrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure
title_full Ultrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure
title_fullStr Ultrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure
title_full_unstemmed Ultrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure
title_sort ultrarobust, tough and highly stretchable self-healing materials based on cartilage-inspired noncovalent assembly nanostructure
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/dcf75c64c6ab4feaa121970f0e7594b5
work_keys_str_mv AT yuyanwang ultrarobusttoughandhighlystretchableselfhealingmaterialsbasedoncartilageinspirednoncovalentassemblynanostructure
AT xinhuang ultrarobusttoughandhighlystretchableselfhealingmaterialsbasedoncartilageinspirednoncovalentassemblynanostructure
AT xinxingzhang ultrarobusttoughandhighlystretchableselfhealingmaterialsbasedoncartilageinspirednoncovalentassemblynanostructure
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