沸石类金属有机骨架的组装：具有 GIS 拓扑结构和高 CO2 捕获能力的铟-ZMOF

Assembly of Zeolite-like Metal-Organic Framework: An Indium-ZMOF Possessing GIS Topology and High CO Capture.

机构信息

State Key Laboratory of Inorganic Synthesis and Preparative Chemistry, College of Chemistry , Jilin University , Changchun 130012 , P. R. China.

Inner Mongolia Key Laboratory of Photoelectric Functional Materials, College of Chemistry and Chemical Engineering , Chifeng University , Chifeng 024000 , P. R. China.

出版信息

Inorg Chem. 2018 Sep 4;57(17):10679-10684. doi: 10.1021/acs.inorgchem.8b01330. Epub 2018 Aug 23.

DOI:10.1021/acs.inorgchem.8b01330

PMID:30136583

Abstract

An In-ZMOF material, [(CH)NH][In(ABTC)]·3DMF (JLU-MOF52), has been synthesized by using 2,2',5,5'-azobenzenetetracarboxylic acid (HABTC) as a linker, which coordinated to four [In(OC)] secondary building units (SBUs) to generate a 3D framework. JLU-MOF52 is constructed by a rare 4 + 4 strategy from 4-connected tetrahedral [In(OC)] SBUs and tetrahedral ligands, which can be described as a (4, 4)-connected and forbidden interpenetrated zeolite-like MOF with GIS topology. The framework exhibits significant advantages in terms of chemical stability. N adsorption study of the activated JLU-MOF52 material reveals a Langmuir and a BET surface area is 1302 and 966 m g, respectively. Furthermore, the adsorption amount of CO for JLU-MOF52 is studied under 1 atm, which exhibits the highest CO capture ability at 273 K among the ZMOFs materials with GIS topology. These characteristics make JLU-MOF52 promising candidate materials for application in moderating increasing atmospheric CO levels.

摘要

一种 In-ZMOF 材料，[(CH)NH][In(ABTC)]·3DMF（JLU-MOF52），是通过使用 2,2',5,5'-联苯四羧酸（HABTC）作为连接体合成的，其与四个[In(OC)]次级构建单元（SBU）配位，生成一个 3D 框架。JLU-MOF52 由 4 连接的四面体[In(OC)]SBU 和四面体配体以罕见的 4+4 策略构建，可以描述为具有 GIS 拓扑的（4,4）连接和禁止互穿沸石样 MOF。该框架在化学稳定性方面具有显著优势。经活化后的 JLU-MOF52 材料的氮气吸附研究表明，其朗缪尔和 BET 表面积分别为 1302 和 966 m²/g。此外，还研究了 JLU-MOF52 在 1 atm 下对 CO 的吸附量，其在 GIS 拓扑的 ZMOFs 材料中在 273 K 时表现出最高的 CO 捕获能力。这些特性使 JLU-MOF52 成为应用于调节不断增加的大气 CO 水平的有前途的候选材料。

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沸石类金属有机骨架的组装：具有 GIS 拓扑结构和高 CO2 捕获能力的铟-ZMOF

Assembly of Zeolite-like Metal-Organic Framework: An Indium-ZMOF Possessing GIS Topology and High CO Capture.

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