X-Ray diffraction study of the microstructure of C60 fullerite powder after grinding in a planetary ball mill

被引:2
|
作者
Sirotinkin, V. P. [1 ]
Agafonov, S. S. [2 ]
机构
[1] Russian Acad Sci, Baikov Inst Met & Mat Sci, Moscow 119991, Russia
[2] Natl Res Ctr Kurchatov Inst, Moscow 123182, Russia
来源
INORGANIC MATERIALS | 2014年 / 50卷 / 05期
关键词
Fullerene; Lattice Strain; Planetary Ball Mill; Increase Milling Time; Fullerene Powder;
D O I
10.1134/S0020168514050161
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The profiles of diffraction peaks of C60 fullerite were used to follow changes in the microstructure of C60 powder during grinding in a planetary ball mill at a rotation rate of 500 rpm and milling time of 8 h. The results demonstrate that grinding for just 1 h leads to a significant decrease in crystallite size. With increasing milling time, the average crystallite size varies little, whereas the lattice strain increases considerably.
引用
收藏
页码:464 / 468
页数:5
相关论文
共 50 条
  • [21] Determining the C60 molecular arrangement in thin films by means of X-ray diffraction
    Elschner, Chris
    Levin, Alexandr A.
    Wilde, Lutz
    Grenzer, Joerg
    Schroer, Christian
    Leo, Karl
    Riede, Moritz
    JOURNAL OF APPLIED CRYSTALLOGRAPHY, 2011, 44 : 983 - 990
  • [22] Hysteretic phenomena in Xe-doped C60 from x-ray diffraction
    Prokhvatilov, AI
    Galtsov, NN
    Legchenkova, IV
    Strzhemechny, MA
    Cassidy, D
    Gadd, GE
    Moricca, S
    Sundqvist, B
    Aksenova, NA
    LOW TEMPERATURE PHYSICS, 2005, 31 (05) : 445 - 448
  • [23] Molecular orientation of C60 on Pt(111) determined by X-ray photoelectron diffraction
    Giovanelli, L
    Cepek, C
    Floreano, L
    Magnano, E
    Sancrotti, M
    Gotter, R
    Morgante, A
    Verdini, A
    Pesci, A
    Ferrari, L
    Pedio, M
    APPLIED SURFACE SCIENCE, 2003, 212 : 57 - 61
  • [24] Process of intercalation of C60 with molecular hydrogen according to x-ray diffraction data
    Yagotintsev, K. A.
    Stetsenko, Yu. E.
    Legchenkova, I. V.
    Prokhvatilov, A. I.
    Strzhemechny, M. A.
    Schafler, E.
    Zehetbauer, M.
    LOW TEMPERATURE PHYSICS, 2009, 35 (03) : 238 - 242
  • [25] In situ x-ray diffraction studies of three-dimensional C60 polymers
    Wood, RA
    Lewis, MH
    Bennington, SM
    Cain, MG
    Kitamura, N
    Fukumi, AK
    JOURNAL OF PHYSICS-CONDENSED MATTER, 2002, 14 (45) : 11615 - 11621
  • [26] In situ X-ray powder diffraction study of one-dimensional polymeric C60 phase transformation under high-pressure
    Le Parc, R.
    Levelut, C.
    Haines, J.
    Davydov, V. A.
    Rakhmanina, A. V.
    Papoular, R. J.
    Belova, E. E.
    Chernozatonskii, L. A.
    Allouchi, H.
    Agafonov, V.
    CHEMICAL PHYSICS LETTERS, 2007, 438 (1-3) : 63 - 66
  • [27] Microstructure of energetic particles investigated by X-ray powder diffraction
    Herrmann, M
    PARTICLE & PARTICLE SYSTEMS CHARACTERIZATION, 2006, 22 (06) : 401 - 406
  • [28] X-ray powder diffraction study of polytetrafluoroethylene
    Yu. A. Lebedev
    Yu. M. Korolev
    V. M. Polikarpov
    L. N. Ignat’eva
    E. M. Antipov
    Crystallography Reports, 2010, 55 : 609 - 614
  • [29] X-ray powder diffraction study of CuInSeTe
    Rashmi
    Suri, DK
    POWDER DIFFRACTION, 2000, 15 (01) : 65 - 68
  • [30] X-ray powder diffraction study of CuInSeTe
    Rashmi (rashmi@csnpl.ren.nic.in), 2000, Cambridge University Press (15)
12345