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Graphitic cones and the nucleation of curved carbon surfaces

Author

Listed:
  • A. Krishnan

    (*NEC Research Institute)

  • E. Dujardin

    (†Laboratoire de Chimie, Collège de France)

  • M. M. J. Treacy

    (*NEC Research Institute)

  • J. Hugdahl

    (‡Kvaerner Engineering a.s.)

  • S. Lynum

    (§ISIS, Louis Pasteur University, rue Blaise Pascal)

  • T. W. Ebbesen

    (*NEC Research Institute
    §ISIS, Louis Pasteur University, rue Blaise Pascal)

Abstract

The nucleation and growth of curved carbon structures, such asfullerenes, nanotubes and soot, are still not well understood. Avariety of models have been proposed1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17, and it seems clear that the occurrence of pentagons, which yield 60° disclination defects in the hexagonal graphitic network, is a key element in the puzzle. The problem of nucleation has been complicated by the great variety of structures observed in any one sample. Here we report an unusual carbon sample generated by pyrolysis of hydrocarbons, consisting entirely of graphitic microstructures with total disclinations that are multiples of +60°. The disclination of each structure corresponds to the presence of a given number of pentagons in the seed from which it grew: disks (no pentagons), five types of cones (one to five pentagons), of which only one was known previously18, and open tubes (six pentagons). Statistical analysis of these domains shows some unexpected features, which suggest that entropy plays a dominant role in the formation of disclinations. Furthermore, the total disclination of a domain is determined mainly at the nucleation stage.

Suggested Citation

  • A. Krishnan & E. Dujardin & M. M. J. Treacy & J. Hugdahl & S. Lynum & T. W. Ebbesen, 1997. "Graphitic cones and the nucleation of curved carbon surfaces," Nature, Nature, vol. 388(6641), pages 451-454, July.
    • Handle: RePEc:nat:nature:v:388:y:1997:i:6641:d:10.1038_41284
    DOI: 10.1038/41284
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    Cited by:

    1. Danwei Liao & Jingyi Zhang & Shuochen Wang & Zhiwang Zhang & Alberto Cortijo & María A. H. Vozmediano & Francisco Guinea & Ying Cheng & Xiaojun Liu & Johan Christensen, 2024. "Visualizing the topological pentagon states of a giant C540 metamaterial," Nature Communications, Nature, vol. 15(1), pages 1-7, December.

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