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植酸改性的核壳结构ZIF67@ZIF8作为一种有效的阻燃剂用于提高环氧树脂的消防安全性能

Core-Shell ZIF67@ZIF8 Modified with Phytic Acid as an Effective Flame Retardant for Improving the Fire Safety of Epoxy Resins.

作者信息

Wang Hongni, Li Xiaoqian, Su Fangfang, Xie Jinliang, Xin Yangyang, Zhang Weirui, Liu Chen, Yao Dongdong, Zheng Yaping

机构信息

School of Chemistry and Chemical Engineering, Northwestern Polytechnical University, Xi'an 710129, People's Republic of China.

出版信息

ACS Omega. 2022 Jun 14;7(25):21664-21674. doi: 10.1021/acsomega.2c01545. eCollection 2022 Jun 28.

DOI:10.1021/acsomega.2c01545
PMID:35785329
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9245132/
Abstract

Despite many important industrial applications, epoxy resin (EP) suffers from high flammability and toxicity emission, extremely hampering their applications. To circumvent the problem, core-shell structured ZIF67@ZIF8 is successfully synthesized and further functionalized with phytic acid (PA) to obtain PA-ZIF67@ZIF8 hybrids. Then, it is used as an efficient flame retardant to reduce the fire risk of EP. The fire test results show a significant reduction in heat and smoke production. Compared with EP, incorporating 5.0 wt % PA-ZIF67@ZIF8 into EP, the peak heat release rate, total heat release, and peak carbon monoxide production are dramatically reduced by 42.2, 33.0, and 41.5%, respectively. Moreover, the EP/PA-ZIF67@ZIF8 composites achieve the UL-94 V-0 rating and the limiting oxygen index increases by 29.3%. These superior fire safety properties are mainly attributed to the excellent dispersion and the catalytic effect of metal oxide and phosphorus-containing compounds. This work provides an efficient strategy for preparing a promising ZIF-based flame retardant for enhancing flame retardancy and smoke toxicity suppression of EP.

摘要

尽管环氧树脂(EP)有许多重要的工业应用,但它具有高易燃性和毒性排放问题,极大地阻碍了其应用。为了解决这个问题,成功合成了核壳结构的ZIF67@ZIF8,并进一步用植酸(PA)进行功能化,以获得PA-ZIF67@ZIF8杂化物。然后,将其用作高效阻燃剂以降低EP的火灾风险。燃烧测试结果表明热释放和烟雾产生显著减少。与EP相比,在EP中加入5.0 wt%的PA-ZIF67@ZIF8,峰值热释放速率、总热释放量和峰值一氧化碳产生量分别显著降低了42.2%、33.0%和41.5%。此外,EP/PA-ZIF67@ZIF8复合材料达到了UL-94 V-0等级,极限氧指数提高了29.3%。这些优异的防火安全性能主要归因于金属氧化物和含磷化合物的良好分散性和催化作用。这项工作为制备一种有前景的基于ZIF的阻燃剂提供了一种有效策略,以提高EP的阻燃性和抑制烟雾毒性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f505/9245132/c6ed6cdecf2d/ao2c01545_0013.jpg

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