Elena V. Ischenko scite author profile

Elena V. Ischenko

5Publications

15Citation Statements Received

49Citation Statements Given

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103

Affiliations

Taras Shevchenko National University of Kyiv

Publications

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Thermo-Exfoliated Graphite Containing CuO/Cu2(OH)3NO3:(Co2+/Fe3+) Composites: Preparation, Characterization and Catalytic Performance in CO Conversion

et al. 2010

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Thermo-exfoliated graphite (TEG)/CuO/Cu2(OH)3NO3:(Co2+/Fe3+) composites were prepared using a wet impregnation method and subsequent thermal treatment. The physicochemical characterization of the composites was carried out by powder X-ray diffraction (PXRD), scanning electron microscopy (SEM) and Ar temperature-desorption techniques. The catalytic efficiency toward CO conversion to CO2 was examined under atmospheric pressure. Characterization of species adsorbed over the composites taken after the activity tests were performed by means of temperature programmed desorption mass-spectrometry (TPD MS). (TEG)/CuO/Cu2(OH)3NO3:(Co2+/Fe3+) composites show superior performance results if lower temperatures and extra treatment with H2SO4 or HNO3 are used at the preparation stages. The catalytic properties enhancements can be related to the Cu2(OH)3NO3 phase providing reaction centers for the CO conversion. It has been found that prevalence of low-temperature states of desorbed CO2 over high-temperature ones in the TPD MS spectra is characteristic of the most active composite catalysts.

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Tribotechnical research into friction surfaces based on polymeric composite materials

Ishchenko

Radionenko

Ischenko³

2017

EEJET

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Виконано порівняльні дослідження триботехнічних характеристик полімерного композитного матеріалу «Moglice» і розробленого матеріалу ДК-6. Випробування виконувалися на парах тертя «чавун-моглайс» і «чавун-ДК-6». Дослідження необхідні для практичного застосування матеріалів ДК-6 або «Moglice» при відновленні зношених поверхонь тертя. Отримано позитивні результати порівняльних випробувань полімерного композитного матеріалу ДК-6 в порівнянні з «Moglice» Ключові слова: напрямні ковзання верстатів, триботехнічні характеристики, полімерні композитні матеріали, коефіцієнт тертя Выполнены сравнительные исследования триботехнических характеристик полимерного композитного материала «Moglice» и разработанного материала ДК-6. Испытания выполнялись на парах трения «чугун-моглайс» и «чугун-ДК-6». Исследования необходимы для практического применения материалов ДК-6 или «Moglice» при восстановлении изношенных поверхностей трения. Получены положительные результаты сравнительных испытаний полимерного композитного материала ДК-6 по сравнению с «Moglice» Ключевые слова: направляющие скольжения станков, триботехнические характеристики, полимерные композитные материалы, коэффициент трения

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Activity of Cu-Fe Mixed Oxide Catalysts in the Selective CO Oxidation (CO-PROX)

Veselovs’kyi

Ischenko²,

Gayday³

et al. 2013

CCAT

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A high efficient two phase CuO/Cu2(OH)3NO3(Co2+/Fe3+) composite catalyst for CO-PROX reaction

Veselovs’kyi

Ischenko

Gaidai

et al. 2012

Catalysis Communications

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DFT Study of H₂, H₂O, and O₂ Adsorption on Ni(111) Surface

Yatsymyrskyi

Ischenko

Gaidai

et al. 2020

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Elena V. Ischenko

Thermo-Exfoliated Graphite Containing CuO/Cu2(OH)3NO3:(Co2+/Fe3+) Composites: Preparation, Characterization and Catalytic Performance in CO Conversion

Tribotechnical research into friction surfaces based on polymeric composite materials

Activity of Cu-Fe Mixed Oxide Catalysts in the Selective CO Oxidation (CO-PROX)

A high efficient two phase CuO/Cu2(OH)3NO3(Co2+/Fe3+) composite catalyst for CO-PROX reaction

DFT Study of H₂, H₂O, and O₂ Adsorption on Ni(111) Surface

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Elena V. Ischenko

Thermo-Exfoliated Graphite Containing CuO/Cu2(OH)3NO3:(Co2+/Fe3+) Composites: Preparation, Characterization and Catalytic Performance in CO Conversion

Tribotechnical research into friction surfaces based on polymeric composite materials

Activity of Cu-Fe Mixed Oxide Catalysts in the Selective CO Oxidation (CO-PROX)

A high efficient two phase CuO/Cu2(OH)3NO3(Co2+/Fe3+) composite catalyst for CO-PROX reaction

DFT Study of H2, H2O, and O2 Adsorption on Ni(111) Surface

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DFT Study of H₂, H₂O, and O₂ Adsorption on Ni(111) Surface