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Загальна кількість знайдених документів : 143
Представлено документи з 1 до 20
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Gun'ko V. M. 2D-nanostructured carbons: effects of oxidation and packing disordering // Хімія, фізика та технологія поверхні. - 2023. - 14, № 3.
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Галстян А. Г. 4-ацетокситолуол. Каталітичне окиснення озоном у крижаній оцтовій кислоті. — 2008 // Хім. пром-сть України.
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Berto F. Brittle failure of graphite weakened by V-notches: a review of some recent results under different loading modes // Проблемы прочности. - 2015. - № 3.
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Breus A. Catalytic synthesis of graphite oxide and graphite nanostructures in transient glow-to-arc plasma discharge // Авіац.-косм. техніка і технологія. - 2022. - № 1.
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Gerasimov O. I. Compaction of granular graphite in a vertically vibrating container with restricted geometry // Condensed Matter Physics. - 2001. - 4, № 1.
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Uklein A. V. Correlation of the photoinduced total transmission with the degree of surface functionalization of carbon materials obtained from natural renewable sources // Укр. фіз. журн.. - 2016. - 61, № 10.
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Voronin S. Determining the influence of carbon black in oil on the wear resistance of elements in the tribological system "steel - oil - bronze" // Вост.-Европ. журн. передовых технологий. - 2019. - № 2/12.
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Kutovyi V. O. Effect of thermal-vacuum dispertion of graphite // East Europ. J. of Physics. - 2020. - № 2.
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Vovchenko L. Electromagnetic loss in carbon based materials // Functional Materials. - 2006. - 13, № 3.
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Zhelezny V. Experimental investigation of the effect of expanded graphite on the thermophysical properties and the heating and cooling rates of paraffin wax in capsule of thermal-energy storage system // Наносистеми, наноматеріали, нанотехнології : зб. наук. пр. - 2022. - 20, вип. 4.
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Mandzyuk V. I. Fractal structure of nanoporous carbon obtained by hydrothermal carbonization of plant raw materials // J. of Nano- and Electronic Physics. - 2022. - 14, № 5.
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Wang Y. From soft to superhard: fifty years of experiments on cold-compressed graphite. — 2012 // Сверхтвердые материалы.
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Karachevtseva L. A. Hong - Ou - Mandel quantum effect on "expanded graphite - CNTs" composites // Хімія, фізика та технологія поверхні. - 2023. - 14, № 3.
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More P. D. Investigation of enhanced electrochemical properties of graphene/Fe2O3 nanocomposite // J. of Nano- and Electronic Physics. - 2021. - 13, № 5.
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Mikhailov I. F. Kinetics of phase transitions in highly oriented graphite intercalated with potassium // Functional Materials. - 2020. - 27, № 3.
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Biliak R. Methods of obtaining graphene // Computational Problems of Electrical Eng. - 2023. - 13, № 1.
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Boulfelfel S. E. Novel <$E bold sp sup 3> forms of carbon predicted by evolutionary metadynamics and analysis of their synthesizability using transition path sampling. — 2012 // Сверхтвердые материалы.
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Zolotarenko O. D. Platinum-containing carbon nanostructures for the creation of electrically conductive ceramics using 3D printing of CJP technology // Хімія, фізика та технологія поверхні. - 2022. - 13, № 3.
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Ivanichok N. Ya. Porous structure of carbon materials obtained from the shell of walnuts // Фізика і хімія твердого тіла. - 2022. - 23, № 1.
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Lisnyak V. V. Preparation and characterization of carbon-silicon hybrid nanostructures // J. of Nano- and Electronic Physics. - 2021. - 13, № 5.
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