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Structure–Activity Relationship Insights for Organophosphonate Hydrolysis at Ti(IV) Active Sites in Metal–Organic Frameworks

化学 双金属片 金属有机骨架 路易斯酸 催化作用 水解 羧酸盐 水溶液 无机化学 组合化学 立体化学 有机化学 吸附
作者
Mohammad Rasel Mian,Xijun Wang,Xingjie Wang,Kent O. Kirlikovali,Haomiao Xie,Kaikai Ma,Kira M. Fahy,Haoyuan Chen,Timur İslamoğlu,Randall Q. Snurr,Omar K. Farha
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:145 (13): 7435-7445 被引量:47
标识
DOI:10.1021/jacs.2c13887
摘要

Organophosphorus nerve agents are among the most toxic chemicals known and remain threats to humans due to their continued use despite international bans. Metal–organic frameworks (MOFs) have emerged as a class of heterogeneous catalysts with tunable structures that are capable of rapidly detoxifying these chemicals via hydrolysis at Lewis acidic active sites on the metal nodes. To date, the majority of studies in this field have focused on zirconium-based MOFs (Zr-MOFs) that contain hexanuclear Zr(IV) clusters, despite the large toolbox of Lewis acidic transition metal ions that are available to construct MOFs with similar catalytic properties. In particular, very few reports have disclosed the use of a Ti-based MOF (Ti-MOF) as a catalyst for this transformation even though Ti(IV) is a stronger Lewis acid than Zr(IV). In this work, we explored five Ti-MOFs (Ti-MFU-4l, NU-1012-NDC, MIL-125, Ti-MIL-101, MIL-177(LT), and MIL-177(HT)) that each contains Ti(IV) ions in unique coordination environments, including monometallic, bimetallic, octanuclear, triangular clusters, and extended chains, as catalysts to explore how both different node structures and different linkers (e.g., azolate and carboxylate) influence the binding and subsequent hydrolysis of an organophosphorus nerve agent simulant at Ti(IV)-based active sites in basic aqueous solutions. Experimental and theoretical studies confirm that Ti-MFU-4l, which contains monometallic Ti(IV)–OH species, exhibits the best catalytic performance among this series with a half-life of roughly 2 min. This places Ti-MFU-4l as one of the best nerve agent hydrolysis catalysts of any MOF reported to date.
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