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H. Ulbricht, G. Moos, T. Hertel (2003)
Interaction of C60 with carbon nanotubes and graphite.Physical review letters, 90 9
P. Ajayan, V. Ravikumar, J. Charlier (1998)
Surface reconstructions and dimensional changes in single-walled carbon nanotubesPhysical Review Letters, 81
F. Banhart (1999)
Irradiation effects in carbon nanostructuresReports on Progress in Physics, 62
K. Kelly, N. Halas (1998)
Determination of α and β site defects on graphite using C60-adsorbed STM tipsSurface Science, 416
P. Thrower, R. Mayer (1978)
Point defects and self‐diffusion in graphitePhysica Status Solidi (a), 47
R. Telling, C. Ewels, A. El-Barbary, M. Heggie (2003)
Wigner defects bridge the graphite gapNature Materials, 2
Radiaton damage to graphite cores in nuclear reactors creates defects that store energy, and sometimes — more dangerously — release it. New simulations suggest that our fundamental picture of the behaviour of graphite defects was too simplistic.
Nature Materials – Springer Journals
Published: May 1, 2003
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