一种水稳定的离子型 MOF，用于选择性捕获有毒的 Se 和 As 的含氧阴离子，以及对离子交换机制的晶体学见解。

A Water-Stable Ionic MOF for the Selective Capture of Toxic Oxoanions of Se and As and Crystallographic Insight into the Ion-Exchange Mechanism.

机构信息

Department of Chemistry, Indian Institute of Science Education and Research (IISER), Pune, Dr. Homi Bhabha Road, Pashan, Pune, 411008, India.

Centre for Energy Science, IISER Pune, Pune, 411008, India.

出版信息

Angew Chem Int Ed Engl. 2020 May 11;59(20):7788-7792. doi: 10.1002/anie.202000670. Epub 2020 Mar 17.

DOI:10.1002/anie.202000670

PMID:32073736

Abstract

Selectively capturing toxic oxoanions of selenium and arsenic is highly desired for the remediation of hazardous waste. Ionic metal-organic frameworks (iMOFs) especially cationic MOFs (iMOF-C) as ion-exchange materials, featuring aqueous phase stability, present a robust pathway for sequestration of the oxoanions owing to their ability to prevent leaching because of their ionic nature. On account of scarcity of water-stable cationic MOFs, the capture of oxoanions of selenium and arsenic has been a major challenge and has not been investigated using iMOFs. Herein, we demonstrate large scale synthesis of cationic MOF, viz. iMOF-1C that exhibits selective capture of oxoanions of Se (SeO ) and As (HAsO ) in water with a maximum sorption capacity of 100 and 85 mg g , respectively. This represents among the highest uptake capacities observed for selenate oxoanion in MOFs. Further, the ion-exchange mechanism was directly unveiled by single crystal analysis, which revealed variable modes of host-guest binding.

摘要

选择性捕获硒和砷的含氧阴离子对于危险废物的修复是非常需要的。离子型金属-有机骨架（iMOFs），特别是阳离子 MOFs（iMOF-C）作为离子交换材料，具有水相稳定性，由于其离子特性，能够防止浸出，从而为含氧阴离子的固定提供了一种强大的途径。由于缺乏水稳定的阳离子 MOFs，因此，使用 iMOFs 捕获硒和砷的含氧阴离子一直是一个主要挑战，并且尚未对此进行研究。在此，我们展示了阳离子 MOF（即 iMOF-1C）的大规模合成，该 MOF 在水中对硒（SeO ）和砷（HAsO ）的含氧阴离子具有选择性捕获能力，最大吸附容量分别为 100 和 85mg/g。这代表了在 MOFs 中观察到的最高硒酸盐含氧阴离子吸收能力之一。此外，通过单晶分析直接揭示了离子交换机制，该分析揭示了主体-客体结合的不同模式。

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一种水稳定的离子型 MOF，用于选择性捕获有毒的 Se 和 As 的含氧阴离子，以及对离子交换机制的晶体学见解。

A Water-Stable Ionic MOF for the Selective Capture of Toxic Oxoanions of Se and As and Crystallographic Insight into the Ion-Exchange Mechanism.

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