Polyhedral Graphite Particles Ambient Air Direct Current Arc Plasma Synthesis Supported by Molybdenum Catalyst / A. Ya. Pak, P. Kononenko, A. Kokorina, R. Gerasimov
Язык: английский.Резюме или реферат: The paper represents the results of experimental studies, showing the possibility of obtaining submicron and nanoscale crystalline phases in direct current arc plasma, formed in an open air in the cavity of a graphite cathode. In the series of experiments the objects were synthesized in the presence of carbon and molybdenum powders, which were identified as particles of polyhedral graphite. The objects are characterized by the sizes of the order of~100-500 nm, typical morphology and a graphite-like structure. According to the energy dispersive analysis, these objects contain on average up to 98% (mass) of carbon, up to 1% (mass) of molybdenum and up to 1% (mass) of oxygen. A feature of the applied approach is its implementation in the open air, which is possible due to the effect of self-shielding of the reaction zone from air oxygen by carbon monoxide and carbon dioxide gases. Also, the cubic molybdenum phase, the orthorhombic MO2 C and hexagonal Mo 1.2 C0.8 phases of molybdenum carbide are identified in the synthesis product..Примечания о наличии в документе библиографии/указателя: [References: p. 1177 (14 tit.)].Аудитория: .Тематика: электронный ресурс | труды учёных ТПУ | polyhedral graphite | molybdenum | carbon | arc discharge | vacuumless method | synthesis | transmission electron microscopy | diffractometry | графит | молибден | углерод | дуговые разряды | вакуумные методы | синтез | просвечивающая электронная микроскопия | рентгеновская дифрактометрия Ресурсы он-лайн:Щелкните здесь для доступа в онлайнTitle screen
[References: p. 1177 (14 tit.)]
The paper represents the results of experimental studies, showing the possibility of obtaining submicron and nanoscale crystalline phases in direct current arc plasma, formed in an open air in the cavity of a graphite cathode. In the series of experiments the objects were synthesized in the presence of carbon and molybdenum powders, which were identified as particles of polyhedral graphite. The objects are characterized by the sizes of the order of~100-500 nm, typical morphology and a graphite-like structure. According to the energy dispersive analysis, these objects contain on average up to 98% (mass) of carbon, up to 1% (mass) of molybdenum and up to 1% (mass) of oxygen. A feature of the applied approach is its implementation in the open air, which is possible due to the effect of self-shielding of the reaction zone from air oxygen by carbon monoxide and carbon dioxide gases. Also, the cubic molybdenum phase, the orthorhombic MO2 C and hexagonal Mo 1.2 C0.8 phases of molybdenum carbide are identified in the synthesis product.
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