Syntheses and Crystal Structures of a Series of Dysprosium–Manganese–Sodium 12-Metallacrown-4 Compounds with Halogenated Benzoate Bridging Anions

A series of heterotrimetallic dysprosium–manganese–sodium 12-metallacrown-4 compounds has been synthesized and characterized by single-crystal X-ray analysis: DyNaX 4 [12-MC Mn(III)N(shi) -4], where X −  = 2-fluorobenzoate ( 1) , 3-fluorobenzoate ( 2 ), 4-fluorobenzoate ( 3 ), 2-chlorobenzoate ( 4 )...

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Bibliographic Details
Published in:Journal of chemical crystallography 2021-12, Vol.51 (4), p.562-574
Main Authors: Michael, Chad H., Zeller, Matthias, Zaleski, Curtis M.
Format: Article
Language:English
Subjects:
Anions
Benzoates
Chemistry
Chemistry and Materials Science
Crystal structure
Crystallography and Scattering Methods
Dysprosium compounds
Group theory
Inorganic Chemistry
Ligands
Manganese
Molecular structure
Organometallic Chemistry
Original Paper
Oxygen atoms
Parameters
Physical Chemistry
Rings (mathematics)
Single crystals
Sodium
X ray analysis
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Summary:A series of heterotrimetallic dysprosium–manganese–sodium 12-metallacrown-4 compounds has been synthesized and characterized by single-crystal X-ray analysis: DyNaX 4 [12-MC Mn(III)N(shi) -4], where X −  = 2-fluorobenzoate ( 1) , 3-fluorobenzoate ( 2 ), 4-fluorobenzoate ( 3 ), 2-chlorobenzoate ( 4 ), 4-chlorobenzoate ( 5 ), 3-bromobenzoate ( 6 ), and 2-iodobenzoate ( 7 ); MC is metallacrown; and shi 3− is salicylhydroximate. Each 12-MC-4 framework is comprised of four ring Mn III ions and four shi 3− ligands. The oxime oxygen atoms of the shi 3− ligands produce a central cavity which then binds one Dy III ion and one Na + ion on opposite sides. In each molecule four halogenated benzoate anions bridge between the central Dy III ion and the ring Mn III ions via the carboxylate groups. The identity of the halogenated benzoate anion has little effect on the structure of the [12-MC Mn(III)N(shi) -4] framework as determined by several metrical parameters: the MC cavity radius, the average cross cavity Mn III –Mn III distance, the average cross cavity oxime oxygen-oxime oxygen distance, and the distance of the Dy III from the oxime oxygen mean plane. For 1 – 7 these metrical parameters are strikingly similar; thus, providing further reinforcement of one hallmark of metallacrown chemistry—the ability to substitute various components of the molecule without affecting the overall structure which can be used for the fine-tuning of molecular properties. Graphic Abstract Four 4-fluorobenzoate (4-Fben) anions bridge between the central Dy III ion and the ring Mn III ions in the metallacrown compound DyNa(4-Fben) 4 [12-MC Mn(III)N(shi) -4](H 2 O) 4 ·4DMF.
ISSN:1074-1542
1572-8854
DOI:10.1007/s10870-021-00880-7