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Quantifying the Likelihood of Structural Models through a Dynamically Enhanced Powder X‐Ray Diffraction Protocol

Sander Borgmans, Sven M. J. Rogge, Juul S. De Vos, Christian V. Stevens, Pascal Van Der Voort, Véronique Van Speybroeck

2021Angewandte Chemie International Edition19 citationsDOIOpen Access PDF

Abstract

Structurally characterizing new materials is tremendously challenging, especially when single crystal structures are hardly available which is often the case for covalent organic frameworks. Yet, knowledge of the atomic structure is key to establish structure-function relations and enable functional material design. Herein, a new protocol is proposed to unambiguously predict the structure of poorly crystalline materials through a likelihood ordering based on the X-ray diffraction (XRD) pattern. Key of the procedure is the broad set of structures generated from a limited number of building blocks and topologies, which is submitted to operando structural characterization. The dynamic averaging in the latter accounts for the operando conditions and inherent temporal character of experimental measurements, yielding unparalleled agreement with experimental powder XRD patterns. The proposed concept can hence unquestionably identify the structure of experimentally synthesized materials, a crucial step to design next generation functional materials.

Topics & Concepts

DiffractionCharacterization (materials science)Protocol (science)Crystal structureSet (abstract data type)Computer scienceMaterials scienceKey (lock)Powder diffractionX-ray crystallographyFunction (biology)NanotechnologyCrystallographyChemistryPhysicsOpticsAlternative medicineBiologyMedicineEvolutionary biologyPathologyComputer securityProgramming languageCovalent Organic Framework ApplicationsMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced Photocatalysis Techniques