C60 page on SklogWiki - a wiki for statistical mechanics and thermodynamics

C₆₀, also known as Buckminsterfullerene is composed of carbon atoms.

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C₆₀

Models

Girifalco potential

The Girifalco intermolecular pair potential is given by ^[1] (Eq. 4):

\Phi (r)=-\alpha \left[{\frac {1}{s(s-1)^{3}}}+{\frac {1}{s(s+1)^{3}}}-{\frac {2}{s^{4}}}\right]+\beta \left[{\frac {1}{s(s-1)^{9}}}+{\frac {1}{s(s+1)^{9}}}-{\frac {2}{s^{10}}}\right]

where

s={\frac {r}{2a}}

\alpha ={\frac {N^{2}A}{12(2a)^{6}}}

\beta ={\frac {N^{2}B}{90(2a)^{12}}}

where $N$ is the number of atoms on each sphere, i.e. N=60.

Phase diagram

^[2] ^[3] ^[4] ^[5]

Liquid phase

^[6]

Gel phase

Simulations of the Girifalco potential indicate a possible gel composed solely of C₆₀ molecules ^[7]

References

↑ L. A. Girifalco "Molecular properties of fullerene in the gas and solid phases", Journal of Physical Chemistry 96 pp. 858-861 (1992)
↑ Ailan Cheng, Michael L. Klein and Carlo Caccamo "Prediction of the phase diagram of rigid C60 molecules", Physical Review Letters 71 pp. 1200-1203 (1993)
↑ L. Mederos and G. Navascués "High-temperature phase diagram of the fullerene C60" Physical Review B 50 pp. 1301-1304 (1994)
↑ M. Hasegawa and K. Ohno "Monte Carlo simulation study of the high-temperature phase diagram of model C60 molecules", Journal of Chemical Physics 111 pp. 5955- (1999)
↑ Pedro Orea "Phase diagrams of model C60 and C70 fullerenes from short-range attractive potentials", Journal of Chemical Physics 130, 104703 (2009)
↑ M. H. J. Hagen, E. J. Meijer, G. C. A. M. Mooij, D. Frenkel and H. N. W. Lekkerkerker "Does C60 have a liquid phase?", Nature 365 pp. 425-426 (1993)
↑ C. Patrick Royall, and Stephen R. Williams "C60: the first one-component gel?", arXiv:1102.2959v1 (cond-mat.soft) 15 Feb 2011)

Related reading

C. Caccamo "Modified-hypernetted-chain determination of the phase diagram of rigid C60 molecules", Physical Review B 51 pp. 3387-3390 (1995)
M. Hasegawa and K. Ohno "Density functional theory for the phase diagram of rigid C60 molecules", Physical Review E 54 pp. 3928-3932 (1996)
C. Caccamo, D. Costa, and A. Fucile "A Gibbs ensemble Monte Carlo study of phase coexistence in model C60", Journal of Chemical Physics 106 pp. 255- (1997)
M. Bahaa Khedr, S. M. Osman and M.S. Al Busaidi "Surface tension, shear viscosity and isothermal compressibility of liquid C60 along the liquid-vapour coexistence", Molecular Physics 107 pp. 1355-1366 (2009)
Minkyu Kim, Jaeeon Chang and Stanley I. Sandler "Monte Carlo simulations for the free energies of C60 and C70 fullerene crystals by acceptance ratio method and expanded ensemble method", Journal of Chemical Physics 140 084110 (2014)

C60