Nikolai G. Maximov scite author profile

Nikolai G. Maximov

5Publications

65Citation Statements Received

95Citation Statements Given

How they've been cited

How they cite others

229

Affiliations

Institute of Chemistry and Chemical Technology, Russian Academy of Sciences

Publications

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Synthesis, structure, and properties of EuErCuS3

Русейкина

Solovyov

Chernyshev

et al. 2019

Journal of Alloys and Compounds

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The crystal structure of the first-synthesized compound EuErCuS3 was determined from X-ray powder diffraction data: orthorhombic crystal system, space group Pnma, structural type Eu2CuS3: a = 10.1005(2) Å, b = 3.91255(4) Å, c = 12.8480(2) Å; V = 507.737(14) Å3, Z = 4, and ρx = 6.266g/cm3. The temperatures and enthalpies of reversible polymorphic transitions and of incongruent melting of the compound were determined by DSC:

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Synthesis, structure, and properties of EuScCuS3 and SrScCuS3

Русейкина

Мolokeev

Chernyshev

et al. 2021

Journal of Solid State Chemistry

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A Study of the Formation of Titanium Trichloride, A Catalyst for Stereospecific Polymerization of Propylene

Захаров¹,

Vermel²,

Artamonova³

et al. 1976

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Synthesis, structure, melting and optical properties of three complex orthorhombic sulfides BaDyCuS3, BaHoCuS3 and BaYbCuS3

Azarapin

Atuchin

Maximov

et al. 2021

Materials Research Bulletin

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Structural, Spectroscopic, Electric and Magnetic Properties of New Trigonal K5FeHf(MoO4)6 Orthomolybdate

et al. 2023

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A new multicationic structurally disordered K5FeHf(MoO4)6 crystal belonging to the molybdate family is synthesized by the two-stage solid state reaction method. The characterization of the electronic and vibrational properties of the K5FeHf(MoO4)6 was performed using density functional theory calculations, group theory, Raman and infrared spectroscopy. The vibrational spectra are dominated by vibrations of the MoO4 tetrahedra, while the lattice modes are observed in a low-wavenumber part of the spectra. The experimental gap in the phonon spectra between 450 and 700 cm−1 is in a good agreement with the simulated phonon density of the states. K5FeHf(MoO4)6 is a paramagnetic down to 4.2 K. The negative Curie–Weiss temperature of −6.7 K indicates dominant antiferromagnetic interactions in the compound. The direct and indirect optical bandgaps of K5FeHf(MoO4)6 are 2.97 and 3.21 eV, respectively. The K5FeHf(MoO4)6 bandgap narrowing, with respect to the variety of known molybdates and the ab initio calculations, is explained by the presence of Mott-Hubbard optical excitation in the system of Fe3+ ions.

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