Plasma-Chemical Synthesis of Nanosized Powders-Nitrides,Carbides,Oxides,Carbon Nanotubes and Fullerenes

被引:0
|
作者
Katerina ZAHARIEVA [1 ]
Gheorghi VISSOKOV [1 ]
Janis GRABIS [2 ]
Slavcho RAKOVSKY [1 ]
机构
[1] Institute of Catalysis,Bulgarian Academy of Sciences
来源
Plasma Science and Technology | 2012年 / 11期
关键词
plasma; nanosized powders; nitrides; carbides; oxides; carbon nanotubes; fullerenes;
D O I
暂无
中图分类号
TB383.1 [];
学科分类号
070205 ; 080501 ; 1406 ;
摘要
In this article the plasma-chemical synthesis of nanosized powders(nitrides,carbides,oxides,carbon nanotubes and fullerenes) is reviewed.Nanosized powders-nitrides,carbides,oxides,carbon nanotubes and fullerenes have been successfully produced using different techniques,technological apparatuses and conditions for their plasma-chemical synthesis.
引用
收藏
页码:980 / 995
页数:16
相关论文
共 50 条
  • [41] Single-stage plasma-chemical synthesis and characterization of carbon nanoparticle-polymer suspensions
    Danilaev, Maxim P.
    Bogoslov, Evgeniy A.
    Kuklin, Vladimir A.
    Vakhitov, Iskander R.
    Kamaliev, Bulat Z.
    Lounev, Ivan, V
    Evtyugin, Vladimir G.
    Rogov, Alexey M.
    Osin, Yury N.
    Tagirov, Lenar R.
    PLASMA PROCESSES AND POLYMERS, 2020, 17 (04)
  • [42] Synthesis and Properties of a Carbon Monoxide Oxidation Catalyst Based on Platinum and Plasma-Chemical Titanium Nitride
    Vershinin, N. N.
    Berestenko, V., I
    Efimov, O. N.
    Kurkin, E. N.
    Kabachkov, E. N.
    HIGH ENERGY CHEMISTRY, 2019, 53 (05) : 400 - 406
  • [43] Synthesis and Properties of a Carbon Monoxide Oxidation Catalyst Based on Platinum and Plasma-Chemical Titanium Nitride
    N. N. Vershinin
    V. I. Berestenko
    O. N. Efimov
    E. N. Kurkin
    E. N. Kabachkov
    High Energy Chemistry, 2019, 53 : 400 - 406
  • [44] Spark Plasma Sintering of WC-10Co Nanopowders with Various Carbon Content Obtained by Plasma-Chemical Synthesis
    Blagoveshchenskiy, Yu. V.
    Isaeva, N. V.
    Lantsev, E. A.
    Boldin, M. S.
    Chuvil'deev, V. N.
    Nokhrin, A. V.
    Murashov, A. A.
    Andreev, P. V.
    Smetanina, K. E.
    Malekhonova, N. V.
    Terentev, A. V.
    INORGANIC MATERIALS-APPLIED RESEARCH, 2021, 12 (02) : 528 - 537
  • [45] Spark Plasma Sintering of WC–10Co Nanopowders with Various Carbon Content Obtained by Plasma-Chemical Synthesis
    Yu. V. Blagoveshchenskiy
    N. V. Isaeva
    E. A. Lantsev
    M. S. Boldin
    V. N. Chuvil’deev
    A. V. Nokhrin
    A. A. Murashov
    P. V. Andreev
    K. E. Smetanina
    N. V. Malekhonova
    A. V. Terentev
    Inorganic Materials: Applied Research, 2021, 12 : 528 - 537
  • [46] Synthesis of carbon nanotubes by ECR plasma-assisted chemical vapor deposition
    Patra, S. K.
    Rao, G. Mohan
    INTERNATIONAL JOURNAL OF NANOSCIENCE, VOL 3, NO 6, 2004, 3 (06): : 845 - 851
  • [47] Synthesis of carbon nanotubes by ECR plasma-assisted chemical vapor deposition
    S.K. Patra
    G. Mohan Rao
    Applied Physics A, 2005, 80 : 1113 - 1115
  • [48] Synthesis of carbon nanotubes by microwave plasma chemical vapor deposition at low temperature
    Wang, SG
    Wang, JH
    Qin, Y
    ACTA CHIMICA SINICA, 2002, 60 (05) : 957 - 960
  • [49] Synthesis of carbon nanotubes by microwave plasma chemical vapor deposition at low temperature
    Wang, JH
    Wang, SG
    MICROWAVE AND RADIO FREQUENCY APPLICATIONS, 2003, : 79 - 87
  • [50] Synthesis of carbon nanotubes by ECR plasma-assisted chemical vapor deposition
    Patra, SK
    Rao, GM
    APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 2005, 80 (05): : 1113 - 1115
12345