Abstract
Electrons interact strongly with matter, which makes it possible to obtain high-resolution electron diffraction data from nano- and submicron-sized crystals. Using electron beam as a radiation source in a transmission electron microscope (TEM), ab initio structure determination can be conducted from crystals that are 6–7 orders of magnitude smaller than using X-rays. The rapid development of three-dimensional electron diffraction (3DED) techniques has attracted increasing interests in the field of metal-organic frameworks (MOFs), where it is often difficult to obtain large and high-quality crystals for single-crystal X-ray diffraction. Nowadays, a 3DED dataset can be acquired in 15–250 s by applying continuous crystal rotation, and the required electron dose rate can be very low (<0.1 e s−1 Å−2). In this review, we describe the evolution of 3DED data collection techniques and how the recent development of continuous rotation electron diffraction techniques improves data quality. We further describe the structure elucidation of MOFs using 3DED techniques, showing examples of using both low- and high-resolution 3DED data. With an improved data quality, 3DED can achieve a high accuracy, and reveal more structural details of MOFs. Because the physical and chemical properties of MOFs are closely associated with their crystal structures, we believe 3DED will only increase its importance in developing MOF materials.
Highlights
Metal-organic frameworks (MOFs) or porous coordination polymers (PCPs) are formed by coordination of metal ions or clusters with organic ligands
Various diffraction techniques have been applied for structure determination of MOF crystals, among which are single-crystal X-ray diffraction (SCXRD), powder X-ray diffraction (PXRD), and electron diffraction (ED)
Structure determination by SCXRD requires large crystal sizes to be at least a few micrometers, and it is sometimes difficult to grow for MOF crystals
Summary
Metal-organic frameworks (MOFs) or porous coordination polymers (PCPs) are formed by coordination of metal ions or clusters with organic ligands. New 3DED protocols by applying continuous crystal rotation, denoted by different groups as continuous rotation electron diffraction (cRED) [43], Fast ADT [44], Fast-EDT [42], MicroED [41], and rotation electron diffraction [40], have been developed As a result, these methods have greatly speeded up data collection, reduced beam damage, and improved data quality. An automated data processing pipeline was developed to process the SerialRED data, group and identify various phases in the sample by hierarchical cluster analysis based on the matching of unit cells and diffraction intensities [76] With such advantages of the latest developments on 3DED methods, the number of MOF structures determined by 3DED keeps increasing. Reference [86] [87] [88] [88] [89] [89] [90] [91] [92] [92] [93] [94] [95,96] [97] [98]
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