通过亚稳中间预平衡物种控制金属有机框架晶体的形成

Control of Metal-Organic Framework Crystallization by Metastable Intermediate Pre-equilibrium Species.

作者信息

Yeung Hamish H-M, Sapnik Adam F, Massingberd-Mundy Felicity, Gaultois Michael W, Wu Yue, Fraser Duncan A X, Henke Sebastian, Pallach Roman, Heidenreich Niclas, Magdysyuk Oxana V, Vo Nghia T, Goodwin Andrew L

机构信息

Inorganic Chemistry Laboratory, University of Oxford, South Parks Road, Oxford, UK.

Leverhulme Research Center for Functional Material Design, The Materials Innovation Factory, Department of Chemistry, University of Liverpool, UK.

出版信息

Angew Chem Int Ed Engl. 2019 Jan 8;58(2):566-571. doi: 10.1002/anie.201810039. Epub 2018 Dec 7.

DOI:10.1002/anie.201810039

PMID:30440102

Abstract

There is an increasing amount of interest in metal-organic frameworks (MOFs) for a variety of applications, from gas sensing and separations to electronics and catalysis. However, the mechanisms by which they crystallize remain poorly understood. Herein, an important new insight into MOF formation is reported. It is shown that, prior to network assembly, crystallization intermediates in the canonical ZIF-8 system exist in a dynamic pre-equilibrium, which depends on the reactant concentrations and the progress of reaction. Concentration can, therefore, be used as a synthetic handle to directly control particle size, with potential implications for industrial scale-up and gas sorption applications. These findings enable the rationalization of apparent contradictions between previous studies of ZIF-8 and opens up new opportunities for the control of crystallization in network solids more generally.

摘要

金属有机框架（MOF）在从气体传感与分离到电子学和催化等各种应用中受到越来越多的关注。然而，它们的结晶机制仍知之甚少。在此，报道了对MOF形成的一项重要新见解。结果表明，在网络组装之前，经典ZIF-8体系中的结晶中间体存在动态预平衡，这取决于反应物浓度和反应进程。因此，浓度可作为一种合成手段直接控制颗粒大小，这对工业放大生产和气体吸附应用具有潜在意义。这些发现使之前关于ZIF-8的研究中明显的矛盾得以合理化，并更广泛地为控制网络固体中的结晶开辟了新机会。

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通过亚稳中间预平衡物种控制金属有机框架晶体的形成

Control of Metal-Organic Framework Crystallization by Metastable Intermediate Pre-equilibrium Species.

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