Search Results - "Mysik, A. A"

Magnetic Nanocomposite Materials Based on Fe3O4 Nanoparticles with Iron and Silica Glycerolates Shell: Synthesis and Characterization by Khonina, Tat’yana G., Demin, Alexander M., Tishin, Denis S., Germov, Alexander Yu, Uimin, Mikhail A., Mekhaev, Alexander V., Minin, Artem S., Karabanalov, Maxim S., Mysik, Alexey A., Bogdanova, Ekaterina A., Krasnov, Victor P.

“…Novel magnetic nanocomposite materials based on Fe3O4 nanoparticles coated with iron and silica glycerolates (MNP@Fe(III)Glyc and MNP@Fe(III)/SiGlyc) were…”
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Control of Fluid Flow Movement in Porous Medium with NMR-Relaxometry Method by Maikov, V. V., Zhakov, S. V., Byzov, I. V., Mysik, A. A.

“…The possibility of fixing velocities of fluid motion in model porous medium (glass beads) by measuring the transverse relaxation time T 2 by spin echo method…”
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Determining Lithium Concentration in Formation Waters by NMR Relaxometry by Byzov, I. V., Zhakov, S. V., Mysik, A. A., Kunakkuzhin, I. A.

“…A procedure for determining lithium concentration in formation waters by NMR relaxometry is proposed. The method makes it possible to quickly determine the…”
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Thermostabilization of the Frequency of a Proton Relaxometer Based on Nuclear Magnetic Resonance with a Magnetic System on Permanent Magnets by Mysik, A. A., Byzov, I. V., Zhakov, S. V.

“…Two variants of automatic correction of temperature variations of a constant magnetic field in the system of a permanent magnet NMR relaxometer are described…”
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Characterization of Carbon-Encapsulated Nickel and Iron Nanoparticles by Means of X-ray Absorption and Photoelectron Spectroscopy by Galakhov, V. R, Shkvarin, A. S, Semenova, A. S, Uimin, M. A, Mysik, A. A, Shchegoleva, N. N, Yermakov, A. Ye, Kurmaev, E. Z

“…Nickel and iron nanoparticles encapsulated in carbon were synthesized by contactless levitation melting of metal drops and their evaporation in a flow of an…”
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Capabilities of NMR Relaxometry Using Magnetic Nanoparticles for the Analysis of Fluid Motion in a Porous Medium by Zhakov, S. V., Byzov, I. V., Mysik, A. A.

“…The dependence of the transverse relaxation time T 2 on the liquid, flow velocity in a porous medium (for the water and water suspension of magnetic…”
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NMR Relaxometry at Quantification of the Captured Magnetic Nanoparticles by Cells by Byzov, I. V., Minin, A. S., Uimin, M. A., Yermakov, A. E., Mysik, A. A., Rayev, M. B., Zhakov, S. V., Ulitko, M. V., Demin, A. M., Krasnov, V. P., Zubarev, I. V.

“…The possibility of using the transverse relaxation time T2 of protons in aqueous media for quantitative measurement of the capture of magnetic nanoparticles by…”
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Synthesis, Magnetic Properties, and Relaxivity of CoFe@C and NiFe@C Nanocomposites by Byzov, I. V., Mysik, A. A., Konev, A. S., Novikov, S. I., Yermakov, A. Ye, Uimin, M. A., Minin, A. S., Gaviko, V. S.

“…Core–shell CoFe@C and NiFe@C nanocomposites were prepared by gas-condensation synthesis. CoFe@C and NiFe@C particles had bcc and fcc cores, respectively. The…”
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Sedimentation and aggregation of magnetite nanoparticles in water by a gradient magnetic field by Medvedeva, I., Bakhteeva, Yu, Zhakov, S., Revvo, A., Byzov, I., Uimin, M., Yermakov, A., Mysik, A.

“…Magnetite (γ-Fe 3 O 4 ) nanoparticles are promising effective sorbents for water cleaning of heavy metal, radionuclides, organic and biological materials. A…”
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Application of NMR relaxometry for determining the concentration of nanopowder magnetite in aqueous media by Medvedeva, I. V., Zhakov, S. V., Revvo, A. V., Byzov, I. V., Bakhteeva, Yu. A., Uimin, M. A., Yermakov, A. E., Mysik, A. A.

“…The use of the effect of a decrease in the transverse relaxation time T 2 of the NMR signal of water protons in the presence of magnetic particles has been…”
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Heat release in magnetic nanoparticles in AC magnetic fields by Sharapova, V. A., Uimin, M. A., Mysik, A. A., Ermakov, A. E.

“…Using the method of gas-phase synthesis, nanocrystalline powders on the basis of iron oxides (defect magnetite Fe 3 O 4 ), with an average size of 16, 21, 30,…”
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Magnetism and structure of Cu2O1+x and 3d-doped TiO2−x nanopowders by Yermakov, A.Ye, Uimin, M.A., Mysik, A.A., Vykhodets, V.B., Kurennykh, T.E., Sokolov, V.I., Gaviko, V.S., Schegoleva, N.N., Gruzdev, N.B.

“…The structural features and magnetic properties of non-stoichiometric nanocrystalline semiconductors Cu2O1+x and TiO2-x doped with 3d-metals were investigated…”
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Specific features of luminescence properties of nanostructured aluminum oxide by Kortov, V. S., Ermakov, A. E., Zatsepin, A. F., Uĭmin, M. A., Nikiforov, S. V., Mysik, A. A., Gaviko, V. S.

“…Aluminum oxide nanopowders are prepared by the gas phase method and characterized according to the particle sizes and the phase composition. Samples of the…”
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Synthesis of the intermetallic compound AuAl2 from nanopowders by Volkov, A. Yu, Uimin, M. A., Mysik, A. A., Novozhonov, V. I., Volkova, E. G., Shchegoleva, N. N., Knyazev, Yu. V., Kozlov, K. A.

“…This paper reports the preparation and compaction of gold and aluminum nanopowders with the aim of obtaining the intermetallic compound AuAl 2 in bulk form. We…”
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Reactivity of nanocrystalline copper oxide and its modification under magnetic field by Yermakov, A.Ye, Feduschak, T.A., Uimin, M.A., Mysik, A.A., Gaviko, V.S., Chupakhin, O.N., Shishmakov, A.B., Kharchuk, V.G., Petrov, L.A., Kotov, Y.A., Vosmerikov, A.V., Korolyov, A.V.

“…The influence of magnetic field on the rate of oxidative dehydrogenation of 2,3,5-trimetyl-1,4-hydroquinone (TMHQ) to 2,3,5-trimetyl-1,4-benzoquinone (TMBQ)…”
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Neuro-Glio-Vascular Complexes of the Brain After Acute Ischemia by Stepanov, A. S., Akulinin, V. A., Mysik, A. V., Stepanov, S. S., Avdeev, D. B.

“…The purpose of the study is to compare the structural and functional state of neuro-glio-vascular microstructural complexes of the somatosensory cortex (SSC),…”
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Magneto-modified catalyst on the base of nanocrystalline CuO by Yermakov, A.Ye, Feduschak, T.A., Sedoi, V.S., Uimin, M.A., Mysik, A.A.

“…The weakly oxidized nanocrystalline copper powders of different sizes (average particle size of 30 and 100 nm) were used as the reactants at copper…”
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Synthesis, structure, and magnetic properties of iron and nickel nanoparticles encapsulated into carbon by Tsurin, V. A., Yermakov, A. Ye, Uimin, M. A., Mysik, A. A., Shchegoleva, N. N., Gaviko, V. S., Maikov, V. V.

“…Nanocomposites based on iron and nickel particles encapsulated into carbon (Fe@C and Ni@C), with an average size of the metal core in the range from 5 to 20 nm…”
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Nitric oxide metabolite levels in children and adult patients with atopic eczema/dermatitis syndrome by T., Guzik, G., Adamek‐Guzik, A., Czerniawska‐Mysik

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Sedimentation of Fe3O4 nanosized magnetic particles in water solution enhanced in a gradient magnetic field by Medvedeva, I., Uimin, M., Yermakov, A., Mysik, A., Byzov, I., Nabokova, T., Gaviko, V., Shchegoleva, N., Zhakov, S., Tsurin, V., Linnikov, O., Rodina, I., Platonov, V., Osipov, V.

“…The sedimentation dynamic of magnetite (Fe 3 O 4 ) nanoparticles in water was investigated, both in the presence of a vertical gradient magnetic field and in…”
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