通过丙酮分级和环氧化改性制备具有增强力学性能的木质素基复合材料。

Lignin-based composites with enhanced mechanical properties by acetone fractionation and epoxidation modification.

作者信息

Zou Shuang-Lin, Xiao Ling-Ping, Li Xiao-Ying, Yin Wen-Zhen, Sun Run-Cang

机构信息

Liaoning Key Lab of Lignocellulose Chemistry and BioMaterials, Liaoning Collaborative Innovation Center for Lignocellulosic Biorefinery, College of Light Industry and Chemical Engineering, Dalian Polytechnic University, Dalian, Liaoning 116034, China.

出版信息

iScience. 2023 Feb 13;26(3):106187. doi: 10.1016/j.isci.2023.106187. eCollection 2023 Mar 17.

DOI:10.1016/j.isci.2023.106187

PMID:36879809

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9985049/

Abstract

Epoxy resin is widely used in various fields of the national economy due to its excellent chemical and mechanical properties. Lignin is mainly derived from lignocelluloses as one of the most abundant renewable bioresources. Due to the diversity of lignin sources and the complexity as well as heterogeneity of its structure, the value of lignin has not been fully realized. Herein, we report the utilization of industrial alkali lignin for the preparation of low-carbon and environmentally friendly bio-based epoxy thermosetting materials. Specifically, epoxidized lignin with substituted petroleum-based chemical bisphenol A diglycidyl ether (BADGE) in various proportions was cross-linked to fabricate thermosetting epoxies. The cured thermosetting resin revealed enhanced tensile strength (4.6 MPa) and elongation (315.5%) in comparison with the common BADGE polymers. Overall, this work provides a practicable approach for lignin valorization toward tailored sustainable bioplastics in the context of a circular bioeconomy.

摘要

环氧树脂因其优异的化学和机械性能而广泛应用于国民经济的各个领域。木质素主要来源于木质纤维素，是最丰富的可再生生物资源之一。由于木质素来源的多样性及其结构的复杂性和异质性，木质素的价值尚未得到充分实现。在此，我们报道了利用工业碱木质素制备低碳环保的生物基环氧热固性材料。具体而言，将不同比例的环氧化木质素与替代石油基化学双酚A二缩水甘油醚（BADGE）交联，以制备热固性环氧树脂。与普通BADGE聚合物相比，固化后的热固性树脂显示出更高的拉伸强度（4.6MPa）和伸长率（315.5%）。总体而言，这项工作为在循环生物经济背景下将木质素转化为定制的可持续生物塑料提供了一种可行的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1fb5/9985049/3b50466a5c82/fx1.jpg

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通过丙酮分级和环氧化改性制备具有增强力学性能的木质素基复合材料。

Lignin-based composites with enhanced mechanical properties by acetone fractionation and epoxidation modification.

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