Multi-functional syringol based epoxides and properties of their thermoset polymers

RSC sustainability Pub Date : 2024-08-13 DOI:10.1039/D4SU00320A

Melissa Sanchez, Peter C. Ford and Mahdi M. Abu-Omar

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Abstract

Lignin-based syringol monomer, 2,6-dimethoxypropylphenol (DMPP), can be upgraded through two synthetic routes to multi-functional propylpyrogallol DMPPO. With three hydroxyl groups, DMPPO can serve as a renewable polymer building block. In this study, we describe the synthesis and characterization of DMPPO epoxide mixtures based on their synthesis methodology; one route uses HBr, another a greener methodology with Nb₂O₅ catalyst in water. Epoxy thermoset polymers using the two different epoxide preparations are synthesized, characterized, and contrasted. Optimization of reaction conditions, including temperature and catalyst concentration, to enhance the performance of epoxy thermosets is discussed. Through dynamic mechanical analysis (DMA) and thermogravimetric analysis (TGA), the thermo-mechanical behavior and thermal stability of the resulting epoxy thermoset networks are evaluated, shedding light on how structural differences impact performance.

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多功能丁香酚基环氧化物及其热固性聚合物的性能

木质素基丁香酚单体--2,6-二甲氧基丙基苯酚（DMPP）可通过两种合成路线升级为多功能丙基焦醛 DMPPO。DMPPO 具有三个羟基，可作为可再生聚合物的结构单元。在本研究中，我们介绍了基于其合成方法的 DMPPO 环氧化物混合物的合成和表征；一种方法是使用 HBr，另一种是在水中使用 Nb2O5 催化剂的更环保的方法。对使用两种不同环氧化物制备的环氧热固性聚合物进行了合成、表征和对比。讨论了如何优化反应条件，包括温度和催化剂浓度，以提高环氧热固性聚合物的性能。通过动态机械分析 (DMA) 和热重分析 (TGA)，评估了所得环氧热固性网络的热机械行为和热稳定性，揭示了结构差异对性能的影响。

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