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October 2024 issue
Cover illustration: Over the last three decades, the technology that makes it possible to follow chemical processes in the solid state in real time has grown enormously. These studies have important implications for the design of new functional materials for applications in optoelectronics and sensors. Light–matter interactions are of particular importance, and photocrystallography has proved to be an important tool for studying these interactions. See Hatcher, Warren & Raithby [Acta Cryst. (2024), C80, 585–600].
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The first three articles of the new `Best practice in crystallography' series have been published covering a guide to growing crystals for single-crystal diffraction studies, a guide to performing photocrystallography and a review detailing what aspects of crystal structure are of particular importance to determining electrical conductance in organic materials.
best practice series
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Over the last three decades, the technology that makes it possible to follow chemical processes in the solid state in real time has grown enormously. These studies have important implications for the design of new functional materials for applications in optoelectronics and sensors. Light–matter interactions are of particular importance, and photocrystallography has proved to be an important tool for studying these interactions.
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Knowledge of the molecular packing within the crystal structures of organic semiconductors has been instrumental in understanding their solid-state electronic properties. Crystal structures are thus becoming increasingly important for enabling engineering properties, understanding polymorphism in bulk and in thin films, exploring dynamics and elucidating phase-transition mechanisms.
electron diffraction
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3D ED studies of synthetic rhabdophane allow single-crystal structure solution from individual nanocrystals and provides insight into the disordered water arrangment in the material. This highlights the usefulness of this technique to study order/disorder at nanoscale and its potential in exploring the effects of irradiation-induced structural and phase changes at such scales in the near future.
crystallography in latin america
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We have successfully synthesized a novel ionic neodymium coordination polymer with 4-sulfobenzoate and pyridine-4-carbohydrazide ligands. The network is characterized by an anionic one-dimensional chain within a cationic three-dimensional polymer, which has potential voids if the one-dimensional net is changed for a smaller anionic species. The structural characterization was achieved by single-crystal X-ray diffraction and computational calculations.
CCDC reference: 2359486
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A binuclear paddle-wheel copper(II) complex containing substituted benzoates as equatorial bridging ligands and ethanol as axial ligands exhibits an antiferromagnetic exchange coupling of 2J = −288 cm−1, which fits well into a previously suggested magneto-structural correlation.
CCDC reference: 2380034
research papers
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Two 2D coordination polymers (CPs) were synthesized by the microwave-irradiated reaction of N,N′-bis(glycinyl)pyromellitic diimide (BGPD) with cadmium acetate dihydrate and zinc acetate dihydrate, respectively. The complexes show different structures and photoluminescence properties. Intermolecular π–π, hydrogen-bonding and carbonyl–carbonyl (n→π*), as well as lone-pair⋯π, interactions are operative in the crystal packing. The influence of the metal-ion size on the structures of the CPs based on the BGPD ligand has been explored through a comparative analysis of the diverse structures with different metal ions.
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A new three-dimensional coordination polymer, with a 5-connected hexagonal boron nitride net (bnn) topology, was synthesized by the microwave-irradiated reaction of N,N′-bis(glycinyl)pyromellitic diimide (BGPD) with barium nitrate. The thermal stability and photoluminescence properties, as well as the UV–Vis absorption spectra, of the coordination polymer were investigated.
CCDC reference: 2380392
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The crystal structures of an array of 16 boron subphthalocyanines with structurally diverse axial groups were analyzed and compared based on their intermolecular interactions, axial bond lengths and bowl depths.
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In the salt calcium (2R,3R)-tartrate tetrahydrate, the absolute configuration was established unambiguously using anomalous dispersion effects in the diffraction patterns. High-quality data also allowed the location and free refinement of all the H atoms.
CCDC reference: 2377585
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The crystal structures of two salts and one hydrate form of the tetracycloquinolizidine alkaloid matrine are described. Hirshfeld and thermal analysis have also been carried out.
