在生理 pH 值下具有高回收能力的锆基 MOF 对化学战剂的解毒作用

IF 2.6 4区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY

ChemNanoMat Pub Date : 2024-05-24 DOI:10.1002/cnma.202400132

Dr. Subharanjan Biswas, Rémy Gay, Dr. Janek Bzdrenga, Thomas Soirot, Nicolas Belverge, Dr. Nicolas Taudon, Dr. Xavier Brazzolotto, Dr. Mohamed Haouas, Prof. Nathalie Steunou, Prof. Jean-Pierre Mahy, Dr. Rémy Ricoux

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引用次数: 0

摘要

由于现代战争中使用的有机磷（OP）化学制剂对人体细胞有剧毒，因此中和这种制剂的问题日益受到关注。在之前的几项研究中，虽然已经展示了几种基于 Zr-MOF 的催化剂在异构途径中促进 OP 制剂水解的能力，但它们的使用似乎受到了中性 pH 下非常缓慢的动力学的限制。目前仍缺乏能在生理 pH 值下解毒 OPs 的 MOF 基催化剂。基于 MOF 的催化剂的回收能力也尚未得到深入探讨。因此，我们在本文中探索了一种 Zr 基 MOF，即 MOF-801(Zr)，用于在接近生理条件的缓冲溶液中同时吸附和降解 pH 值为 7.5 的一系列 OP 神经毒剂和一种杀虫剂。这种基于 MOF 的催化剂对多种神经毒剂具有显著的水解活性，2 小时内的转化率高达 99%，半衰期小于 5 分钟。此外，它还可以连续循环使用至少 5 次，剩余活性至少为 90%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Detoxification of Chemical Warfare Agents by a Zr-Based MOF with High Recycling Ability at Physiological pH

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Detoxification of Chemical Warfare Agents by a Zr-Based MOF with High Recycling Ability at Physiological pH

The neutralization of organophosphorous (OP) chemical agents used in modern warfare is a growing concern due to their extreme toxicity to human cells. In several previous works, although the capability of several Zr-MOF-based catalysts has been showcased to facilitate hydrolysis of OP agents in heterogeneous pathways, their usage appeared to be limited by very slow kinetics at neutral pH. There is still a lack of MOF based catalysts that can detoxify OPs at physiological pH. The recycling ability of MOF-based catalysts has also not been greatly explored. Thus, herein, we explored a Zr-based MOF, MOF-801(Zr) for the detoxification of a series of OP nerve agents and a pesticide with simultaneous adsorption and degradation at pH 7.5 in a buffer solution, close to physiological conditions. This MOF-based catalyst demonstrates significant hydrolysis activity towards several nerve agents, with up to 99 % conversion within 2 h and an excellent half-life of less than 5 minutes. In addition, it can be recycled at least 5 times consecutively with a residual activity of at least 90 %.

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来源期刊

ChemNanoMat Energy-Energy Engineering and Power Technology

CiteScore

6.10

自引率

2.60%

发文量

236

期刊介绍： ChemNanoMat is a new journal published in close cooperation with the teams of Angewandte Chemie and Advanced Materials, and is the new sister journal to Chemistry—An Asian Journal.