Engineering a new generation of thermoset self-healing polymers based on intrinsic approaches

JADA foundational science Pub Date : 2022-01-01 DOI:10.1016/j.jfscie.2022.100014

Ana P. Fugolin MS, PhD , Carmem S. Pfeifer PhD

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引用次数: 3

Abstract

Objectives

The development of thermosetting polymers with autonomic reparability has become an important research topic since it has the potential to benefit several fields such as biomaterials, tissue engineering, paint and coating technologies, electronics, and soft robotics. In dentistry, the development of restorative materials capable of inhibiting the propagation of microcracks caused by masticatory forces and thermal stress may represent a crucial expansion of the limited clinical lifespan of dental restorations, which is a pressing challenge. Biological systems have inspired the underlying concepts and designs of synthetic polymeric self-healing systems, and different strategies have been used to impart autonomous repair capability in polymers. In this review, the most relevant intrinsic strategies are categorized based on the reaction mechanisms. In general, these strategies rely on the incorporation of latent functionalities capable of undergoing reversible chemical bonds within the polymeric structure (chemically or compositionally tuned).

Search Strategy

The searches were conducted in the databases Scopus, PubMed, and Google Scholar and limited to articles that were written in English and published during the last ten years. A few additional articles were included by complementing the database searches with manual review of the reference lists.

Overall Conclusions

Although intrinsic approaches remain underexplored in dentistry, a wide variety of elegant chemistries with tremendous translational potential employed in other fields to promote autonomic repair are highlighted in this review.

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基于内在方法的新一代热固性自愈聚合物工程

具有自主修复能力的热固性聚合物的开发已经成为一个重要的研究课题，因为它有可能使生物材料、组织工程、油漆和涂层技术、电子和软机器人等多个领域受益。在牙科领域，开发能够抑制咀嚼力和热应力引起的微裂纹扩展的修复材料可能是延长牙科修复体有限临床寿命的关键，这是一项紧迫的挑战。生物系统激发了合成聚合物自修复系统的基本概念和设计，并使用了不同的策略来赋予聚合物的自主修复能力。本文根据反应机制对最相关的内在策略进行了分类。一般来说，这些策略依赖于在聚合物结构(化学或成分调谐)内能够进行可逆化学键的潜在功能的结合。搜索策略在Scopus、PubMed和b谷歌Scholar数据库中进行搜索，仅限于近十年来用英文撰写和发表的文章。通过手动检查参考列表补充数据库搜索，还包括了一些其他文章。尽管内在途径在口腔医学中尚未得到充分的探索，但本文综述了各种具有巨大转化潜力的化学物质在其他领域促进自主神经修复的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

JADA foundational science Dentistry, Oral Surgery and Medicine

自引率

0.00%

发文量

审稿时长

103 days