Electrodischarge method for synthesizing nanocarbon from gaseous raw hydrocarbons

被引:0
|
作者
L. Z. Boguslavskii
N. S. Nazarova
D. V. Vinnichenko
A. D. Rud’
I. V. Urubkov
机构
[1] National Academy of Sciences of Ukraine,Institute of Pulse Processes and Technologies
[2] National Academy of Sciences of Ukraine,Institute of Metal Physics
来源
Surface Engineering and Applied Electrochemistry | 2011年 / 47卷
关键词
Fullerene; Apply Electrochemistry; Surface Engineer; Synthesis Product; Plasma Channel;
D O I
暂无
中图分类号
学科分类号
摘要
A new method for electrodischarge synthesizing nanocarbon has been elaborated, which provides high gradients of temperatures and pressure at the expense of a high rate of energy input into the plasma channels. The morphological structure of the produced nanocarbon is uniform, the characteristic dimensions of the particles are in the range from 9 to 50 nm, and the content of chemically pure carbon amounts up to 97% (with the balance being O2), so it is possible to avoid the labor-consuming operation of clearing nanocarbon when producing it through the electrodischarge method.
引用
收藏
页码:344 / 350
页数:6
相关论文
共 50 条
  • [1] Electrodischarge Method for Synthesizing Nanocarbon from Gaseous Raw Hydrocarbons
    Boguslavskii, L. Z.
    Nazarova, N. S.
    Vinnichenko, D. V.
    Rud, A. D.
    Urubkov, I. V.
    SURFACE ENGINEERING AND APPLIED ELECTROCHEMISTRY, 2011, 47 (04) : 344 - 350
  • [2] Control of the Process of Electrodischarge Synthesis of Nanocarbon from Gaseous Hydrocarbons on Metal Surfaces
    L. Z. Boguslavskii
    D. V. Vinnichenko
    N. S. Nazarova
    Yu. O. Adamchuk
    S. V. Chushchak
    S. S. Kozyrev
    Surface Engineering and Applied Electrochemistry, 2019, 55 : 274 - 279
  • [3] Control of the Process of Electrodischarge Synthesis of Nanocarbon from Gaseous Hydrocarbons on Metal Surfaces
    Boguslayskii, L. Z.
    Vinnichenko, D. V.
    Nazarova, N. S.
    Adamchuk, Yu O.
    Chushchak, S., V
    Kozyrev, S. S.
    SURFACE ENGINEERING AND APPLIED ELECTROCHEMISTRY, 2019, 55 (03) : 274 - 279
  • [4] On the possibility of the synthesis of nanocarbon under the high-frequency pulse-periodic electrodischarge effect on gaseous hydrocarbons
    L. Z. Boguslavskii
    Surface Engineering and Applied Electrochemistry, 2010, 46 : 352 - 360
  • [5] On the possibility of the synthesis of nanocarbon under the high-frequency pulse-periodic electrodischarge effect on gaseous hydrocarbons
    Boguslavskii, L. Z.
    SURFACE ENGINEERING AND APPLIED ELECTROCHEMISTRY, 2010, 46 (04): : 352 - 360
  • [6] Tribological properties of nanocarbon obtained by the electrodischarge method
    V. Yu. Baklar
    N. I. Kuskova
    V. V. Tikhonovich
    A. N. Gripachevskii
    Surface Engineering and Applied Electrochemistry, 2009, 45 : 280 - 286
  • [7] Tribological Properties of Nanocarbon Obtained by the Electrodischarge Method
    Baklar, V. Yu.
    Kuskova, N. I.
    Tikhonovich, V. V.
    Gripachevskii, A. N.
    SURFACE ENGINEERING AND APPLIED ELECTROCHEMISTRY, 2009, 45 (04) : 280 - 286
  • [8] Properties of carbon nanomaterials produced from gaseous raw materials using high-frequency electrodischarge processing
    Boguslavskii L.Z.
    Rud’ A.D.
    Kir’yan I.M.
    Nazarova N.S.
    Vinnichenko D.V.
    Surface Engineering and Applied Electrochemistry, 2015, 51 (2) : 105 - 110
  • [9] Production of Nanocarbon from Local Raw Materials
    Khilola K.
    Ibodullayevich F.N.
    Uktamovich N.O.
    Shoyimovich H.G.
    Strategic Planning for Energy and the Environment, 2023, 42 (01) : 161 - 186
  • [10] THE SYNTHESIS OF AROMATIC HYDROCARBONS - A NEW METHOD OF SYNTHESIZING HYDROCARBONS OF THE FLUORENE SERIES
    LEVINA, RJ
    SKVARCHENKO, VR
    CHERVONEVA, LA
    FEDORCHUK, LV
    VASILIEVA, TT
    DOKLADY AKADEMII NAUK SSSR, 1958, 118 (05): : 938 - 941
12345