Lanthanide cymantrenecarboxylate complexes with an Ln:Mn ratio of 1:2 as precursors for LnMn₂O₅ phases. Synthesis, structure, physicochemical properties, and thermal decomposition

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• 作者：Pavel S. Koroteev ; Zhanna V. Dobrokhotova ; Andrey B. Ilyukhin ; Nikolay N. Efimov ; Denis I. Kirdyankin ; Aleks ; r V. Tyurin ; Yury A. Velikodny ; Maksim L. Kovba ; Vladimir M. Novotortsev
• 关键词：Cymantrenecarboxylate ; Rare earth manganite ; X-ray diffraction study ; Magnetic properties ; Standard thermodynamic functions ; Thermal decomposition
• 刊名：Polyhedron
• 出版年：2013
• 出版时间：28 November, 2013
• 年：2013
• 卷：65
• 期：Complete
• 页码：110-121
• 全文大小：1434 K

文摘

New binuclear rare-earth cymantrenecarboxylate complexes [Ln₂(¦Ì₂-OOCCym)₂(¦Ì-§°,¦Ç²-OOCCym)₂(¦Ç²-NO₃)₂(¦Ç²-DME)₂], Ln = Pr (1), Eu (2), Gd (3), Tb (4a), Dy (5), Ho(6a), Er (7); [Ln₂(¦Ì₂-OOCCym)₄(¦Ç²-NO₃)₂(¦Ç²-DME)₂], Ln = Tb (4b), Ho(6b,c), Yb (8) and the trinuclear complex [Yb₃(¦Ì-§°,¦Ç²-OOCCym)₂(¦Ì₂-OOCCym)₄(¦Ç²-NO₃)₃(¦Ç²-DME)₂(H₂O)₂] (9) (Cym = (¦Ç⁵-C₅H₄)Mn(CO)₃), DME = CH₃OCH₂CH₂OCH₃) were synthesized and characterized by X-ray diffraction. The magnetic properties of 3 are indicative of antiferromagnetic exchange between the Gd atoms. Complexes 4a and 6a were found to exhibit significant ferromagnetic interactions. It was shown that the luminescence of Eu³⁺ in 2 is efficiently quenched by the cymantrenecarboxylate moiety which determines the luminescent properties of this complex. For complex 4a standard thermodynamic functions were calculated from adiabatic calorimetry data. The thermal decomposition of the complexes in air affords pure LnMn₂O₅ phases as the final products. The magnetic properties of the LnMn₂O₅ phases (Ln = Gd, Ho) prepared by the thermal decomposition of 3 and 6a were studied.