Magneto-structural correlations in the binuclear complexes with asymmetrical exchange fragment: a way to molecular magnets

Maevskiy O.; Lukov V.; Kogan V.; Popov Leonid; Tupolova Yu.

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MAEVSKIY, O., LUKOV, V., KOGAN, V., POPOV, Leonid, TUPOLOVA, Yu.. Magneto-structural correlations in the binuclear complexes with asymmetrical exchange fragment: a way to molecular magnets. In: Physical Methods in Coordination and Supramolecular Chemistry, 27 septembrie - 1 octombrie 2006, Chişinău. Chisinau, Republic of Moldova: 2006, XVII, p. 147. ISBN 978-9975-62-066-6.

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Physical Methods in Coordination and Supramolecular Chemistry
XVII, 2006

Conferința "The XV-th International Conference Physical Methods in Coordination and Supramolecular Chemistry : The XVII-th Reading in memory of Acad. A.Ablov"
Chişinău, Moldova, 27 septembrie - 1 octombrie 2006

Magneto-structural correlations in the binuclear complexes with asymmetrical exchange fragment: a way to molecular magnets

Pag. 147-147

Maevskiy O., Lukov V., Kogan V., Popov Leonid, Tupolova Yu.

Rostov State University

Disponibil în IBN: 12 iunie 2020

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In order to elucidate the influence of both ligand’s structure and central ion on the strength and character of exchange interaction between paramagnetic centers, the series of type I novel binuclear metallochelates with unsymmetrical exchange fragment including heterocycles has been synthesized.figureThe conditions determining the sign of exchange interaction have been established by the directed varying the substituent’s (R) nature in the ligand molecules as well as heterocyclic moieties. Namely, the complexes in which the 2J values are in the range from -300 to +200 cm-1 have been obtained for both copper (II) and vanadyl (II) ions, the nature of magnetic orbital in which is quite different. The quantum-chemical calculations for heterocyclic as well as the unsymmetrical exchange fragments have been carried out. The theoretical data obtained have been compared with the experimental values of exchange parameters that allowed to carry out their theoretical interpretation. The obtained complexes can be used as the precursors for the directed synthesis of novel magneto active materials – molecular magnets, possessing nanoscale structure.

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