R. A. Manapov scite author profile

Here, we report the first results of investigation the local structure and photoactive properties of iron‐containing dendromesogens based on decyloxybenzoate substituted poly(propylene imine) dendrimers of the first to fifth generations. Iron ions existing in a high‐spin state are coordinated in dendrimer ligands by two kinds of iron‐complexing sites with an octahedral and a tetrahedral symmetry. Octahedral (high‐symmetry) centers are located at the border of the dendrimeric core, while the tetrahedral centers with strong rhombic distortion of iron environment are distributed throughout all branching of the dendrimeric core. It has been found that all iron‐containing dendromesogens exhibit light‐harvesting and fluorescence properties.

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Structural, Magnetic and Dynamic Characterization of Liquid Crystalline Iron(III) Schiff Base Complexes with Asymmetric Ligands

Domracheva

Pyataev

Manapov

et al. 2011

Eur J Inorg Chem

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The iron(III) complexes that were formed by coordination of the Fe III ion with the asymmetric tridentate liquid crystalline Schiff base ligand (L), the water molecules and the different counterions [PF 6 -(1), NO 3 -(2), and Cl -(3)] were studied by electron paramagnetic resonance (EPR) spectroscopy. EPR spectroscopy demonstrated that each of the complexes investigated consists of two types of iron centers: S = 1/2 low-spin (LS) and S = 5/2 high-spin (HS). LS iron complexes 2, 3 and LS complex 1 in the temperature range 4. + X -, with X = PF 6 -as the counterion. The LS and HS iron centers of 1 are coupled together antiferromagnetically and form a dimer structure by means of the water molecules and the PF 6 -counterion. The second-type of LS and HS cen-

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Magnetic Resonance and Mössbauer Studies of Superparamagnetic γ‐Fe₂O₃ Nanoparticles Encapsulated into Liquid‐Crystalline Poly(propylene imine) Dendrimers

et al. 2011

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We present the first results of electron magnetic resonance (EMR) and Mössbauer spectroscopy studies of γ-Fe(2)O(3) nanoparticles (NPs) incorporated into liquid-crystalline, second-generation dendrimers. The mean size of NPs formed in the dendrimers was around 2.5 nm. A temperature-driven transition from superparamagnetic to ferrimagnetic resonance was observed for the sample. Low-temperature blocking of the NP magnetic moments has been clearly evidenced in the integrated EMR line intensity and the blocking temperature was about 60 K. The physical parameters of magnetic NPs (magnetic moment, effective magnetic anisotropy) have been determined from analyses of the EMR data. The effective magnetic anisotropy constant is enhanced relative to bulk γ-Fe(2)O(3) and this enhanced value is associated with the influence of the surface and shape effects. The angular dependence of the EMR signal position for the field-freezing sample from liquid-crystalline phase showed that NPs possessed uniaxial anisotropy, in contrast to bulk γ-Fe(2)O(3). Mössbauer spectroscopy determined that fabricated NPs consisted of an α-Fe core and a γ-Fe(2)O(3) shell.

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Stepwise magnetic behavior of the liquid crystal iron(III) complex

et al. 2013

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R. A. Manapov

Mössbauer studies of Cu1−xNixFeMnO4 spinel ferrites

Iron‐Containing Poly(propylene imine) Dendromesogens with Photoactive Properties

Structural, Magnetic and Dynamic Characterization of Liquid Crystalline Iron(III) Schiff Base Complexes with Asymmetric Ligands

Magnetic Resonance and Mössbauer Studies of Superparamagnetic γ‐Fe₂O₃ Nanoparticles Encapsulated into Liquid‐Crystalline Poly(propylene imine) Dendrimers

Stepwise magnetic behavior of the liquid crystal iron(III) complex

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R. A. Manapov

Mössbauer studies of Cu1−xNixFeMnO4 spinel ferrites

Iron‐Containing Poly(propylene imine) Dendromesogens with Photoactive Properties

Structural, Magnetic and Dynamic Characterization of Liquid Crystalline Iron(III) Schiff Base Complexes with Asymmetric Ligands

Magnetic Resonance and Mössbauer Studies of Superparamagnetic γ‐Fe2O3 Nanoparticles Encapsulated into Liquid‐Crystalline Poly(propylene imine) Dendrimers

Stepwise magnetic behavior of the liquid crystal iron(III) complex

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Resources

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Magnetic Resonance and Mössbauer Studies of Superparamagnetic γ‐Fe₂O₃ Nanoparticles Encapsulated into Liquid‐Crystalline Poly(propylene imine) Dendrimers