Evaluation of catalyst ball-milling process on growth and diameter of carbon nanotubes on iron nanoparticles

被引:0
|
作者
Taleshi, F. [1 ]
Hosseini, Ali A. [2 ]
机构
[1] Islamic Azad Univ, Dept Appl Sci, Qaemshahr Branch, Qaemshahr, Iran
[2] Univ Mazandaran, Dept Phys, Babol Sar 4741695447, Iran
来源
INTERNATIONAL JOURNAL OF NANO DIMENSION | 2013年 / 3卷 / 04期
关键词
Ball-milling; Carbon nanotubes; Catalyst nanoparticles; Chemical vapor deposition;
D O I
10.7508/ijnd.2012.04.008
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
In this study, we describe the growth of carbon nanotubes on commercial iron nanoparticles without carbon shell (Fe (nm), size < 60 nm) andiron nanoparticles with carbon shell (Fe* (nm), size < 60 nm) as catalysts by chemical vapour deposition method. In order to investigation of supports effects, preparation of catalyst nanopowders (Fe* (nm)/Al2O3 and Fe* (nm)/MgO) was carried out by mixing commercial Fe* nanoparticles (as catalyst) with Al2O3 and MgO powders (as supports) by using ball-milling method. The results show in spite of the fact that ball-milling process can have negative effects on diameter and morphology of synthesized CNTs at 925 degrees C, but it could increase the range of growth temperature from 865 degrees C to 975 degrees C.
引用
收藏
页码:313 / 319
页数:7
相关论文
共 50 条
  • [31] Synthesis of iron-doped TiO2 nanoparticles by ball-milling process: the influence of process parameters on the structural, optical, magnetic, and photocatalytic properties
    Carneiro, J. O.
    Azevedo, S.
    Fernandes, F.
    Freitas, E.
    Pereira, M.
    Tavares, C. J.
    Lanceros-Mendez, S.
    Teixeira, V.
    JOURNAL OF MATERIALS SCIENCE, 2014, 49 (21) : 7476 - 7488
  • [32] Synthesis of iron-doped TiO2 nanoparticles by ball-milling process: the influence of process parameters on the structural, optical, magnetic, and photocatalytic properties
    J. O. Carneiro
    S. Azevedo
    F. Fernandes
    E. Freitas
    M. Pereira
    C. J. Tavares
    S. Lanceros-Méndez
    V. Teixeira
    Journal of Materials Science, 2014, 49 : 7476 - 7488
  • [33] Crystallinity and surface state of cellulose in wet ball-milling process
    Nemoto, Shimpei
    Ueno, Tomonaga
    Watthanaphanit, Anyarat
    Hieda, Junko
    Saito, Nagahiro
    JOURNAL OF APPLIED POLYMER SCIENCE, 2017, 134 (22)
  • [34] Heat generation model in the ball-milling process of a tantalum ore
    Marino-Salguero, J.
    Jorge, J.
    Menendez-Aguado, J. M.
    Alvarez-Rodriguez, B.
    de Felipe, J. J.
    MINERALS & METALLURGICAL PROCESSING, 2017, 34 (01) : 10 - +
  • [35] Heat generation model in the ball-milling process of a tantalum ore
    J. Mariño-Salguero
    J. Jorge
    J. M. Menéndez-Aguado
    B. Álvarez-Rodriguez
    J. J. de Felipe
    Minerals & Metallurgical Processing, 2017, 34 : 10 - 19
  • [36] Evolution of nanostructure and chemical reactivity of carbon during ball-milling
    Hermann, H
    Gruner, W
    Mattern, N
    Bauer, HD
    Fugaciu, F
    Schubert, T
    MECHANICALLY ALLOYED, METASTABLE AND NANOCRYSTALLINE MATERIALS, PART 1, 1998, 269-2 : 193 - 198
  • [37] Collision-friction synthesis of carbon nanomaterials by a high-speed ball-milling process
    Ohara, S.
    Tan, Z. Q.
    Yamamoto, K.
    Qiu, N.
    Hashishin, T.
    PROCEEDINGS OF THE 1ST INTERNATIONAL JOINT SYMPOSIUM ON JOINING AND WELDING, 2013, : 509 - 510
  • [38] Increased chemisorption onto activated carbon after ball-milling
    Welham, NJ
    Berbenni, V
    Chapman, PG
    CARBON, 2002, 40 (13) : 2307 - 2315
  • [39] Structural transformation of porous and disordered carbon during ball-milling
    Yuan, Renlu
    Dong, Yue
    Hou, Ruoyang
    Shang, Lei
    Zhang, Jiapeng
    Zhang, Su
    Chen, Xiaohong
    Song, Huaihe
    CHEMICAL ENGINEERING JOURNAL, 2023, 454
  • [40] Utilization of iron oxide film obtained by CVD process as catalyst to carbon nanotubes growth
    Schnitzler, Mariane C.
    Zarbin, Aldo J. G.
    JOURNAL OF SOLID STATE CHEMISTRY, 2009, 182 (10) : 2867 - 2872
12345