通过机械化学控制卟啉基锆金属有机框架中的多晶型和拓扑转变

Controlling the Polymorphism and Topology Transformation in Porphyrinic Zirconium Metal-Organic Frameworks via Mechanochemistry.

作者信息

Karadeniz Bahar, Žilić Dijana, Huskić Igor, Germann Luzia S, Fidelli Athena M, Muratović Senada, Lončarić Ivor, Etter Martin, Dinnebier Robert E, Barišić Dajana, Cindro Nikola, Islamoglu Timur, Farha Omar K, Friščić Tomislav, Užarević Krunoslav

机构信息

Rud̵er Bošković Institute , 10000 Zagreb , Croatia.

McGill University , Montreal , Quebec H3A 0B8 , Canada.

出版信息

J Am Chem Soc. 2019 Dec 11;141(49):19214-19220. doi: 10.1021/jacs.9b10251. Epub 2019 Nov 26.

DOI:10.1021/jacs.9b10251

PMID:31747754

Abstract

Tetratopic porphyrin-based metal-organic frameworks (MOFs) represent a particularly interesting subclass of zirconium MOFs due to the occurrence of several divergent topologies. Control over the target topology is a demanding task, and reports often show products containing phase contamination. We demonstrate how mechanochemistry can be exploited for controlling the polymorphism in 12-coordinated porphyrinic zirconium MOFs, obtaining pure hexagonal PCN-223 and cubic MOF-525 phases in 20-60 min of milling. The reactions are mainly governed by the milling additives and the zirconium precursor. monitoring by synchrotron powder X-ray diffraction revealed that specific reaction conditions resulted in the formation of MOF-525 as an intermediate, which rapidly converted to PCN-223 upon milling. Electron spin resonance measurements revealed significant differences between the spectra of paramagnetic centers in two polymorphs, showing a potential of polymorphic Zr-MOFs as tunable supports in spintronics applications.

摘要

基于四连接卟啉的金属有机框架（MOF）由于存在多种不同的拓扑结构，是锆基MOF中一类特别有趣的子类。控制目标拓扑结构是一项艰巨的任务，而且报道中常常显示产物含有相杂质。我们展示了如何利用机械化学来控制12配位卟啉锆基MOF中的多晶型，在研磨20 - 60分钟内获得纯的六方相PCN - 223和立方相MOF - 525。反应主要受研磨添加剂和锆前驱体的控制。同步辐射粉末X射线衍射监测表明，特定的反应条件导致形成MOF - 525作为中间体，研磨时它会迅速转化为PCN - 223。电子自旋共振测量揭示了两种多晶型中顺磁中心光谱的显著差异，表明多晶型锆基MOF在自旋电子学应用中作为可调谐载体的潜力。

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通过机械化学控制卟啉基锆金属有机框架中的多晶型和拓扑转变

Controlling the Polymorphism and Topology Transformation in Porphyrinic Zirconium Metal-Organic Frameworks via Mechanochemistry.

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