Specific features of spin-variable properties of [Fe(acen)pic2]BPh4 · nH2O

© 2016, Pleiades Publishing, Ltd. The [Fe(acen)pic2]BPh4 · nH2O compound has been synthesized and studied in the temperature interval of 5–300 K by the methods of EPR and magnetic susceptibility. The existence of ferromagnetic interactions between Fe(III) complexes in this compound has been revealed, in contrast to unhydrated [Fe(acen)pic2]BPh4. The reduction in the integrated intensity of the magnetic resonance signal as the temperature decreases below 80 K has been explained by the transition of high-spin ions to the low-spin state. It has been shown that the phase transition temperature in the presence of intermolecular (ferromagnetic) interactions is lower than that in the case of noninteracting centers

Specific features of spin-variable properties of [Fe(acen)pic2]BPh4 · nH2O

© 2016, Pleiades Publishing, Ltd. The [Fe(acen)pic2]BPh4 · nH2O compound has been synthesized and studied in the temperature interval of 5–300 K by the methods of EPR and magnetic susceptibility. The existence of ferromagnetic interactions between Fe(III) complexes in this compound has been revealed, in contrast to unhydrated [Fe(acen)pic2]BPh4. The reduction in the integrated intensity of the magnetic resonance signal as the temperature decreases below 80 K has been explained by the transition of high-spin ions to the low-spin state. It has been shown that the phase transition temperature in the presence of intermolecular (ferromagnetic) interactions is lower than that in the case of noninteracting centers

Intermolecular interactions and spin states of complexes [Fe(3-MeO-Qsal)<inf>2</inf>]Y (Y = PF<inf>6</inf>, BF<inf>4</inf>)

© 2017, Pleiades Publishing, Ltd.Compounds [Fe(3-MeO-Qsal)2]Y (Y = PF6, BF4) have been prepared by diffusion method and studied in temperature range 5–300 K by EPR and magnetic susceptibility methods. The coexistence of spatially separated high-spin (solvated) and low-spin (unsolvated) fractions in the studied compounds has been established. It has been shown that change in the type of outer-sphere anion leads to change in the character of intermolecular interactions in the high-spin fraction and has no effect on the parameters and character of interactions of paramagnetic centers in the low-spin fraction

Paramagnetic resonance of LaGaO3: Mn single crystals grown by floating zone melting

© 2016, Pleiades Publishing, Ltd. The EPR spectrum of Mn-doped lanthanum gallate single crystals grown by floating zone melting with optical heating has been studied. In contrast to the crystals grown according to the Czochralski method, no manganese is found in these crystals even after high-temperature annealing in air. The spectral characteristics of Fe3+ and Gd3+ centers in crystals prepared by various methods have been compared in the rhombohedral phase, and the fourth-rank nondiagonal parameters of the Fe3+ trigonal centers have been determined, as well

Aproximación integral a la evaluación del progreso hacia la sostenibilidad

Traducción: Patricia M. Bartol de lmbachVersión en inglés disponible en la Biblioteca Digital del IDRC: Community-based indicators : a guide for field workers carrying out monitoring and assessment at the community levelVersión en francés disponible en la Biblioteca Digital del IDRC: Indicateurs communautaires : guide à l'intention des travailleurs sur le terrain faisant des travaux de contrôle et d'évaluation communautaire

Features of the Magnetic Properties of the [Fe(salen)(2-Me-Him)]<inf>n</inf> Chain Structure

© 2019, Pleiades Publishing, Ltd. The iron(III) compound of composition [Fe(III)(salen)(2-Me-Him)]n, where H2salen = N, N′-ethylenebis(salicylaldimine) and 2-Me-Him = 2-methylimidazolate bridging ligand, was prepared. Magnetic resonance and magnetic susceptibility measurements showed the existence of linear and zigzag antiferromagnetic chains in the compound. Weak ferromagnetism was shown to arise in zigzag antiferromagnetic chains due to antisymmetric exchange interactions. The features of the temperature dependence of magnetization indicate that the magnetic system experiences the transition to the spin-glass state at a temperature below 30 K

Features of the Magnetic Properties of the [Fe(salen)(2-Me-Him)]<inf>n</inf> Chain Structure

© 2019, Pleiades Publishing, Ltd. The iron(III) compound of composition [Fe(III)(salen)(2-Me-Him)]n, where H2salen = N, N′-ethylenebis(salicylaldimine) and 2-Me-Him = 2-methylimidazolate bridging ligand, was prepared. Magnetic resonance and magnetic susceptibility measurements showed the existence of linear and zigzag antiferromagnetic chains in the compound. Weak ferromagnetism was shown to arise in zigzag antiferromagnetic chains due to antisymmetric exchange interactions. The features of the temperature dependence of magnetization indicate that the magnetic system experiences the transition to the spin-glass state at a temperature below 30 K

Towards gender-sensitive SME policy in Egypt

© 2016, Pleiades Publishing, Ltd. The [Fe(acen)pic2]BPh4 · nH2O compound has been synthesized and studied in the temperature interval of 5–300 K by the methods of EPR and magnetic susceptibility. The existence of ferromagnetic interactions between Fe(III) complexes in this compound has been revealed, in contrast to unhydrated [Fe(acen)pic2]BPh4. The reduction in the integrated intensity of the magnetic resonance signal as the temperature decreases below 80 K has been explained by the transition of high-spin ions to the low-spin state. It has been shown that the phase transition temperature in the presence of intermolecular (ferromagnetic) interactions is lower than that in the case of noninteracting centers

Intermolecular interactions and spin states of complexes [Fe(3-MeO-Qsal)<inf>2</inf>]Y (Y = PF<inf>6</inf>, BF<inf>4</inf>)

© 2017, Pleiades Publishing, Ltd.Compounds [Fe(3-MeO-Qsal)2]Y (Y = PF6, BF4) have been prepared by diffusion method and studied in temperature range 5–300 K by EPR and magnetic susceptibility methods. The coexistence of spatially separated high-spin (solvated) and low-spin (unsolvated) fractions in the studied compounds has been established. It has been shown that change in the type of outer-sphere anion leads to change in the character of intermolecular interactions in the high-spin fraction and has no effect on the parameters and character of interactions of paramagnetic centers in the low-spin fraction