O. M. Lisova scite author profile

O. M. Lisova

5Publications

2Citation Statements Received

60Citation Statements Given

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Chuiko Institute of Surface Chemistry

Publications

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Electrophysical and Magnetic Properties of Arrays of Fibrous Iron-Containing Carbon Nanocomposites

Sedov¹,

Holod²,

Makhno³

et al. 2019

Metallofiz. Noveishie Tekhnol.

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Вивчено склад, електрофізичні та магнітні властивості масивів залізовмісних волокнистих вуглецевих нанокомпозитів (ЗВВНК), синтезованих з використанням методів газофазного піролітичного розкладу ацетилену та термокаталітичного осадження вуглецю в присутності каталізаторутворюючого залізовмісного концентрату. У складі ЗВВНК виявлено вуглецеві нановолокна та багатостінні вуглецеві нанотрубки (зовнішній діаметр 10-100 нм, довжина 100-1000 нм), а також нанокристалічні фази магнетиту, кремнезему, графіту, карбіду заліза, середній розмір яких, обчис

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Synthesis of the composites of graphene nanoplatelets/(Ni-Co) and their properties

Lisova¹,

Makhno²,

Gunya³

et al. 2017

Him. Fiz. Tehnol. Poverhni

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Synthesis and Magnetic Characteristics of N–Co Nanocomposites

Lisova¹,

Абрамов²,

Makhno³

et al. 2018

Metallofiz. Noveishie Tekhnol.

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The single-domain nanoparticles of NiCo, NiCo on the surface of graphene (NiCo@GNP) and NiCo on the surface of silica dioxide (NiCo@SiO 2) are synthesized. Their crystalline structure, surface morphology and magnetic characteristics of nanoparticle are investigated. It is shown that the magnetization curve of the nanoparticles ensembles in the form, which is distinctive for superparamagnets, and its calculations within the framework of the Langevin's paramagnetism theory are satisfactorily consistent with the experimental results. The laws of particle size distribution in ensembles are established using the method of magnetic granulometry.

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Еlectrophysical properties of carbon nanotubes/NiCo composites

Lisova¹,

Makhno²,

Gunya³

et al. 2018

Him. Fiz. Tehnol. Poverhni

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Metal-containing nanocomposites containing nanoparticles of organic and inorganic materials, attract considerable attention of specialists in recent years due to a large number of possible applications. NiCo nanoparticles have been obtained on the surface of unoxidized and oxidized multiwall carbon nanotubes (MWCNT) by chemical precipitation of the corresponding carbonates from a solution of hydrazine hydrate at a temperature of 350 K. Oxidation of MWCNT was carried out in a solution of potassium dichromate and sulfuric acid. The purpose of this work is to synthesize composites of MWCNT/NiCo and to find differences in their electrophysical properties dependent on the nature of the MWCNT surface. The transmission electron microscopic and radiographic studies showed the presence of phases composites with the size of crystallites of 20-30 nm. The packing density of agglomerates of metal particles is higher in composites with unoxidized MWCNT. The metal particles are arranged on the surface of MWCNT more evenly and in shape more close to spherical in composites with oxidized MWCNT. The method of thermogravimetric analysis shows that the process of composites oxidation during heating for a composite containing oxidized MWCNT is more intense. It indicates a smaller particle size of metals. The real and imaginary components of the complex dielectric and magnetic permeabilities of the disperse composites was determined by the methods of ultrahigh-frequency interferometry. The corresponding values are somewhat higher for composites containing oxidized MWCNT in the ultrahigh-frequency range. The values of imaginary magnetic permeability are higher by 18 % for unoxidized MWCNT composites at low frequencies. The electrical conductivity at low frequencies is 2.9 and 1.6 Ohm-1 •cm-1 for composites containing unoxidized and oxidized MWCNTs, respectively.

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Electrophysical properties of composites based on the epoxy resin and expanded graphite

Sirenko¹,

Makhno²,

Lisova³

et al. 2018

Him. Fiz. Tehnol. Poverhni

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The composites of epoxy resin-expanded graphite(EG)-vermiculite and epoxy resin-expanded graphite-perlite were obtained and their electrophysical properties were analysed at low frequencies and in the microwave range. High values (> 30) of real and imaginary components of the complex permittivity for both systems were achieved with a content of EG of less than 2 wt. %. The values of the percolation threshold and critical index of systems were defined: for a system with vermiculite the percolation transition (φ c = 0.0018); and for a system with perlite (φ c =0.0039). The method of impedance spectroscopy (10-2-10 6 Hz) shows that for all investigated composites there is no dependence of electrical conductivity to frequency, but up to a value of 10 3 Hz, indicating a low level of ionic conductivity. It was found that the difference in electrophysical characteristics of two systems with the same content of the expanded graphite arises due to the nature of the surface of the dielectric components. The best indicators, namely, the lower percolation threshold and the achievement of maximum electrical conductivity values at lower EG, are in the system with vermiculite. It is due to the hydrophobic properties of the surface the filler particles, as well as the effect of the flow of a dielectric particle of vermiculite by a suspension of an epoxy resin-EG, while the particles perlite is impregnated with it. Changing the content of such dielectric ingredients allows us to expand the functionality of composites when used for shielding from electromagnetic fields.

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O. M. Lisova

Electrophysical and Magnetic Properties of Arrays of Fibrous Iron-Containing Carbon Nanocomposites

Synthesis of the composites of graphene nanoplatelets/(Ni-Co) and their properties

Synthesis and Magnetic Characteristics of N–Co Nanocomposites

Еlectrophysical properties of carbon nanotubes/NiCo composites

Electrophysical properties of composites based on the epoxy resin and expanded graphite

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