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<i>Ab Initio</i> Prediction of Metal-Organic Framework Structures

James P. Darby, Mihails Arhangelskis, Athanassios D. Katsenis, Joseph M. Marrett, Tomislav Friščić, Andrew J. Morris

2020Chemistry of Materials34 citationsDOI

Abstract

Metal-organic frameworks (MOFs) have emerged as highly versatile materials with applications in gas storage and separation, solar light energy harvesting and photocatalysis. The design of new MOFs, however, has been hampered by the lack of computational methods for ab initio MOF structure prediction, which could be used to inspire and direct experimental synthesis. Here, we report the first ab initio method for the prediction of MOF structures and test it against a diverse set of known MOFs that were chosen for their differences in topology, metal coordination geometry, and ligand binding sites. In all cases, our calculations produced structures that match experiment using only the target composition and ligand molecular structure, proving the versatility of our procedure. The herein presented methodology utilizes the point group symmetry of ligands to enable, for the first time, prediction of MOF structures from first principles, without having to resort to empirical guidelines based on rigid connectivity of nodes and linkers, or to previously determined crystal structures and topologies of known MOFs. This advance provides the first tool to change MOF design from an empirically based process that is based on chemistʼs intuition rooted in literature- or database-established knowledge of node-and-linker connectivity to a more general and theory-driven materials development. This ab initio MOF structure prediction approach, which is here validated on a range of known MOF classes, provides a unique opportunity to explore the phase landscape of MOFs computationally and enables MOF research and development even in case of limited access to laboratory resources, as for example in case of a global pandemic.

Topics & Concepts

Ab initioMetal-organic frameworkTopology (electrical circuits)Crystal structure predictionComputer scienceMaterials scienceComputational chemistryNanotechnologyChemistryCrystal structureCrystallographyMathematicsAdsorptionCombinatoricsOrganic chemistryMetal-Organic Frameworks: Synthesis and ApplicationsX-ray Diffraction in CrystallographyMachine Learning in Materials Science
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