Advances in the Diels-Alder Reaction in Self-Healing Polymeric Materials

Polymeric functional materials are widely used in all aspects of everyday life. However, they are subject to a variety of environmental influences such as chemical attack, mechanical abrasion or impact and thermal decomposition, resulting in a significant shortening of the service life of polymer ma...

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Published in	MATEC web of conferences Vol. 386; p. 1006
Main Author	Ren, Junyu
Format	Journal Article Conference Proceeding
Language	English
Published	Les Ulis EDP Sciences 2023
Subjects	Composite materials Cycloaddition Diels-Alder reactions Functional materials Polymers Self healing materials Service life Thermal decomposition
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Abstract	Polymeric functional materials are widely used in all aspects of everyday life. However, they are subject to a variety of environmental influences such as chemical attack, mechanical abrasion or impact and thermal decomposition, resulting in a significant shortening of the service life of polymer materials. Using traditional repair methods, the damaged part of the material is only reattached or reinforced at a macro level. Currently, more and more research is focused on smart composite materials with self-healing properties. This eliminates hidden problems in the use of the material, thereby extending its service life and broadening the range of applications. The Diels-Alder (DA) reaction is a [4+2] cycloaddition reaction between a conjugated diene and a substituted alkene. It has become a hot research topic in the field of self-healing due to its mild reaction conditions and lack of catalyst. In this paper, the progress of research on self-healing polymeric materials is reviewed with a focus on applications in DA reactions. The research progress in this field is reviewed based on the chemical structures of the prepared DA reaction-based polymers, and the development of DA reaction based self-healing polymers is investigated. Finally, the development of selfhealing polymers based on DA reactions is given as an outlook.
AbstractList	Polymeric functional materials are widely used in all aspects of everyday life. However, they are subject to a variety of environmental influences such as chemical attack, mechanical abrasion or impact and thermal decomposition, resulting in a significant shortening of the service life of polymer materials. Using traditional repair methods, the damaged part of the material is only reattached or reinforced at a macro level. Currently, more and more research is focused on smart composite materials with self-healing properties. This eliminates hidden problems in the use of the material, thereby extending its service life and broadening the range of applications. The Diels-Alder (DA) reaction is a [4+2] cycloaddition reaction between a conjugated diene and a substituted alkene. It has become a hot research topic in the field of self-healing due to its mild reaction conditions and lack of catalyst. In this paper, the progress of research on self-healing polymeric materials is reviewed with a focus on applications in DA reactions. The research progress in this field is reviewed based on the chemical structures of the prepared DA reaction-based polymers, and the development of DA reaction based self-healing polymers is investigated. Finally, the development of selfhealing polymers based on DA reactions is given as an outlook.
Author	Ren, Junyu
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Cites_doi	10.1021/am9009378 10.1021/acsami.7b06407 10.1002/mame.201500425 10.6023/cjoc201212016
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References	Jing (R10) 2017; 9 Wan (R8) 2021; 35 Peterson (R3) 2010; 2 Zhang (R5) 2018; 32 Kuang (R9) 2016; 301 Zhou (R4) 2023; 51 He (R6) 2019; 33 Wu (R7) 1991; 1991 Xiong (R2) 2013; 33 R1
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SubjectTerms	Composite materials Cycloaddition Diels-Alder reactions Functional materials Polymers Self healing materials Service life Thermal decomposition
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Title	Advances in the Diels-Alder Reaction in Self-Healing Polymeric Materials
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