On the conditions of formation of carbon nanostructures on the steel reactor surface from the products of hydrocarbon decomposition in a low-temperature plasma. 3. depth analysis of the material, hypothesis of the growth mechanism

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Shashkov A.E., Solntsev A.P., Carbon nanotubes synthesis under non-equilibrium conditions, Int, Workshop on Carbon Materials for Energy Applications, pp. 31-36, (2004)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Volzhankin V.M., Borisevich K.O., Samtsov P.P., Formation of carbon nanostructures in the decomposition of methane in the plasma of a high-voltage atmosphericpressure discharge, Inzh.-Fiz. Zh., 81, 4, pp. 617-620, (2008)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Borisevich K.O., Inzh.-Fiz. Zh., 82, 3, pp. 413-419, (2009)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Borisevich K.O., On the formation of carbon nanostructures on the steel surface of a reactor as a result of the decomposition of hydrocarbons in the low-temperature plasma. 2. Modernization of the experimental setup, search for optimum operating conditions, determination of additional controlling factors of the process, Inzh.-Fiz. Zh., 82, 3, pp. 420-424, (2009)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Laktyushin A.N., Borisevich K.O., Kiyashko M.V., Obtaining carbon nanomaterials in a plant with a plasmatron and a working zone of rectangular cross section, Inzh.-Fiz.Zh., 83, 1, pp. 8-10, (2010)

Wang Y.Y., Gupta S., Nemanichb R.J., Liu Z.J., Qin L.C., Hollow to bamboolike internal structure transition observed in carbon nanotube films, J. Appl. Phys, 98, (2005)

Ermakova M.A., Ermakov D.Yu., Chuvilin A.L., Kuvshinov G.G., Decomposition of methane over iron catalysts at the range of moderate temperatures: The influence of structure of the catalytic systems and the reaction conditions on the yield of carbon and morphology of carbon filaments, Journal of Catalysis, 201, 2, pp. 183-197, (2001)

Buyanov R.A., Chesnokov V.V., On the processes in metal particles in catalytic hydrocarbon decomposition on them by the carbide-cycle mechanism, Khim, Inter. Ustoich. Razv., 13, pp. 37-40, (2005)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Shashkov A.E., Solntsev A.P., Carbon nanotubes synthesis under non-equilibrium conditions, Int, Workshop on Carbon Materials for Energy Applications, pp. 31-36, (2004)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Volzhankin V.M., Borisevich K.O., Samtsov P.P., Formation of carbon nanostructures in the decomposition of methane in the plasma of a high-voltage atmosphericpressure discharge, Inzh.-Fiz. Zh., 81, 4, pp. 617-620, (2008)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Borisevich K.O., Inzh.-Fiz. Zh., 82, 3, pp. 413-419, (2009)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Borisevich K.O., On the formation of carbon nanostructures on the steel surface of a reactor as a result of the decomposition of hydrocarbons in the low-temperature plasma. 2. Modernization of the experimental setup, search for optimum operating conditions, determination of additional controlling factors of the process, Inzh.-Fiz. Zh., 82, 3, pp. 420-424, (2009)

Zhdanok S.A., Buyakov I.F., Krauklis A.V., Laktyushin A.N., Borisevich K.O., Kiyashko M.V., Obtaining carbon nanomaterials in a plant with a plasmatron and a working zone of rectangular cross section, Inzh.-Fiz.Zh., 83, 1, pp. 8-10, (2010)

Wang Y.Y., Gupta S., Nemanichb R.J., Liu Z.J., Qin L.C., Hollow to bamboolike internal structure transition observed in carbon nanotube films, J. Appl. Phys, 98, (2005)

Ermakova M.A., Ermakov D.Yu., Chuvilin A.L., Kuvshinov G.G., Decomposition of methane over iron catalysts at the range of moderate temperatures: The influence of structure of the catalytic systems and the reaction conditions on the yield of carbon and morphology of carbon filaments, Journal of Catalysis, 201, 2, pp. 183-197, (2001)

Buyanov R.A., Chesnokov V.V., On the processes in metal particles in catalytic hydrocarbon decomposition on them by the carbide-cycle mechanism, Khim, Inter. Ustoich. Razv., 13, pp. 37-40, (2005)