FTIR traced modification of defect-engineered UiO-66 for enhanced accessibility of zirconium sites

IF 4.8 3区 材料科学 Q1 CHEMISTRY, APPLIED
Vera V. Butova , Videlina R. Zdravkova , Olga A. Burachevskaia , Ivan E. Gorban , Mikhail A. Soldatov , Konstantin I. Hadjiivanov
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Abstract

This research focuses on identifying the accessibility of active sites within the defect-engineered UiO-66 framework. The task is particularly challenging due to reversible changes in the framework during dehydroxylation: the loss of μ3-OH groups with simultaneous reduction of the Zr coordination number and the possible creation of Zr4+ Lewis acid sites in defect MOFs. We used in-situ FTIR and XANES analyses, as well as interaction with probe molecules, to monitor the changes in Zr coordination and the host-guest interaction. The defects were introduced using benzoic acid as a modulator, which coordinated to Zr4+ in defective pores. Our results showed that the UiO-66 sample synthesized with benzoic acid contained defects, but these were concealed under benzoate residues and thus inaccessible. Standard washing and heating did not remove benzoate anions. Dehydroxylation of the sample leads to the development of “hidden” Lewis acidity: some Zr4+ sites were not able to form complexes with the weak base CO, but they interact with the stronger bases acetonitrile. Additionally, in-situ XANES analysis revealed that the effect of acetonitrile adsorption is similar to that of water rehydration. Treatment of the sample with HCl and DMF led to the replacement of benzoates with formate ions, exposing the bare Zr4+ sites within the defective pores. These cationic sites acted as true Lewis acids and were able to coordinate both CO and acetonitrile. Our findings emphasize that the active sites in UiO-66 highly depend on synthesis conditions and post-synthetic treatments. Comprehensive site-specific methods are crucial for accurately predicting and identifying these active sites.

Abstract Image

傅立叶变换红外光谱(FTIR)追踪缺陷工程 UiO-66 的改性,提高锆位点的可及性
这项研究的重点是确定缺陷工程 UiO-66 框架内活性位点的可达性。由于框架在脱羟基过程中发生了可逆变化:μ3-OH 基团消失,同时 Zr 配位数减少,并可能在缺陷 MOF 中产生 Zr4+ 路易斯酸位点,因此这项任务尤其具有挑战性。我们利用原位傅立叶变换红外光谱(FTIR)和 XANES 分析以及与探针分子的相互作用来监测 Zr 配位的变化以及主客体之间的相互作用。缺陷是用苯甲酸作为调制剂引入的,苯甲酸在缺陷孔中与 Zr4+ 配位。我们的结果表明,用苯甲酸合成的 UiO-66 样品含有缺陷,但这些缺陷被掩盖在苯甲酸残留物之下,因此无法进入。标准洗涤和加热并不能去除苯甲酸阴离子。对样品进行脱羟基处理会产生 "隐藏的 "路易斯酸:一些 Zr4+ 位点无法与弱碱 CO 形成络合物,但却能与强碱乙腈相互作用。此外,原位 XANES 分析表明,乙腈吸附的效果与水的再水化效果类似。用盐酸和 DMF 处理样品会导致甲酸根离子取代苯甲酸根离子,从而暴露出缺陷孔隙中的 Zr4+ 裸露位点。这些阳离子位点充当了真正的路易斯酸,能够配位一氧化碳和乙腈。我们的研究结果表明,UiO-66 中的活性位点在很大程度上取决于合成条件和合成后的处理。针对特定位点的综合方法对于准确预测和识别这些活性位点至关重要。
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来源期刊
Microporous and Mesoporous Materials
Microporous and Mesoporous Materials 化学-材料科学:综合
CiteScore
10.70
自引率
5.80%
发文量
649
审稿时长
26 days
期刊介绍: Microporous and Mesoporous Materials covers novel and significant aspects of porous solids classified as either microporous (pore size up to 2 nm) or mesoporous (pore size 2 to 50 nm). The porosity should have a specific impact on the material properties or application. Typical examples are zeolites and zeolite-like materials, pillared materials, clathrasils and clathrates, carbon molecular sieves, ordered mesoporous materials, organic/inorganic porous hybrid materials, or porous metal oxides. Both natural and synthetic porous materials are within the scope of the journal. Topics which are particularly of interest include: All aspects of natural microporous and mesoporous solids The synthesis of crystalline or amorphous porous materials The physico-chemical characterization of microporous and mesoporous solids, especially spectroscopic and microscopic The modification of microporous and mesoporous solids, for example by ion exchange or solid-state reactions All topics related to diffusion of mobile species in the pores of microporous and mesoporous materials Adsorption (and other separation techniques) using microporous or mesoporous adsorbents Catalysis by microporous and mesoporous materials Host/guest interactions Theoretical chemistry and modelling of host/guest interactions All topics related to the application of microporous and mesoporous materials in industrial catalysis, separation technology, environmental protection, electrochemistry, membranes, sensors, optical devices, etc.
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