A transmission electron microscope and electron diffraction study of carbon nanodisks

被引:23
|
作者
Garberg, Torgunn [1 ]
Naess, Stine Nalum [1 ]
Helgesen, Geir [2 ]
Knudsen, Kenneth D. [1 ,2 ]
Kopstad, Gunnar [3 ]
Elgsaeter, Arnljot [1 ]
机构
[1] Norwegian Univ Sci & Technol, Dept Phys, NO-7491 Trondheim, Norway
[2] Inst Energy Technol, Dept Phys, NO-2027 Kjeller, Norway
[3] St Olavs Hosp, Elect Microscope Lab, NO-7006 Trondheim, Norway
来源
CARBON | 2008年 / 46卷 / 12期
关键词
D O I
10.1016/j.carbon.2008.06.044
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
The pyrolytic Kvaerner carbon-black and hydrogen process yields industrial amounts of carbon nanodisks and nanocones. We here report on the first detailed transmission electron microscope and electron diffraction study of such carbon nanodisks. The carbon nanodisk rim thickness ranges from 5-6 nm to 60-70 nm, but most disks are 10-30 nm thick. In agreement with earlier reported results, we find that the disk diameters fall within the range from 500 to 4000 nm. Most nanodisks display six identical pairs of facets. The two associated interfacial angles are 0(1) = (22 +/- 1)degrees and 0(2) = 60.0 degrees-0(1). The nanodisk fracture surfaces reveal that the nanodisks are multi-layered structures. When the incident electron beam is perpendicular to the plane of the nanodisk we find that the diffraction patterns consist of concentric and continuous rings, on top of which there are discrete sets of diffraction spots. These spots display six-fold rotational symmetry and are consistent with the diffraction patterns of graphite layers. (C) 2008 Elsevier Ltd. All rights reserved.
引用
收藏
页码:1535 / 1543
页数:9
相关论文
共 50 条
  • [21] TRANSMISSION ELECTRON-MICROSCOPE AND X-RAY-DIFFRACTION STUDY OF MUSCOVITE AND CHLORITE
    OERTEL, G
    CURTIS, CD
    PHAKEY, PP
    MINERALOGICAL MAGAZINE, 1973, 39 (302) : 176 - 188
  • [22] TRANSMISSION ELECTRON MICROSCOPE OBSERVATION OF BAINITE OF CARBON STEEL
    SHIMIZU, K
    KO, T
    NISHIYAM.Z
    TRANSACTIONS OF THE JAPAN INSTITUTE OF METALS, 1964, 5 (04): : 225 - &
  • [23] Lorentz Transmission Electron Microscopy of Ferromagnetic Nanodisks
    Tatarskiy, D. A.
    Skorokhodov, E., V
    Gusev, N. S.
    Mikhailovskii, V. Yu
    Petrov, Yu, V
    Gusev, S. A.
    STATE-OF-THE ART TRENDS OF SCIENTIFIC RESEARCH OF ARTIFICIAL AND NATURAL NANOOBJECTS (STRANN-2018), 2019, 2064
  • [24] Study on CdSe nanoclusters by transmission electron microscope
    Xu, Yan
    Lin, Zhaojun
    Chen, Wei
    Bai, Yuanqiang
    Fang, Keming
    Pan Tao Ti Hsueh Pao/Chinese Journal of Semiconductors, 1998, 19 (03): : 181 - 184
  • [25] TRANSMISSION ELECTRON MICROSCOPE STUDY OF IMPERFECTIONS IN CADMIUM
    BAHADUR, K
    CHAUDHARY, KL
    AGGARWALA, RP
    INDIAN JOURNAL OF PURE & APPLIED PHYSICS, 1965, 3 (11) : 453 - +
  • [26] A TRANSMISSION ELECTRON MICROSCOPE STUDY OF AMETHYST AND CITRINE
    MCLAREN, AC
    PHAKEY, PP
    AUSTRALIAN JOURNAL OF PHYSICS, 1965, 18 (02): : 135 - &
  • [27] TRANSMISSION ELECTRON MICROSCOPE STUDY OF GALLIUM ARSENIDE
    MEIERAN, ES
    JOURNAL OF APPLIED PHYSICS, 1965, 36 (08) : 2544 - &
  • [28] TRANSMISSION ELECTRON-MICROSCOPE STUDY OF PECTOLITE
    LIDDELL, NA
    PHAKEY, PP
    INDIAN JOURNAL OF PHYSICS AND PROCEEDINGS OF THE INDIAN ASSOCIATION FOR THE CULTIVATION OF SCIENCE-PART A, 1978, 52 (03): : 270 - 285
  • [29] TRANSMISSION ELECTRON-MICROSCOPE STUDY OF PECTOLITE
    LIDDELL, NA
    PHAKEY, PP
    INDIAN JOURNAL OF PHYSICS AND PROCEEDINGS OF THE INDIAN ASSOCIATION FOR THE CULTIVATION OF SCIENCE-PART B, 1978, 52 (03): : 270 - 285
  • [30] DIFFRACTION MEASUREMENTS WITH ELECTRON MICROSCOPE
    MACKAY, AL
    JOURNAL OF PHYSICS E-SCIENTIFIC INSTRUMENTS, 1968, 1 (09): : 907 - &
12345