Low-temperature structural model of hcp solid C70

Abstract

We report intermolecular potential-energy calculations for solid C70 and determine the optimum static orientations of the molecules at low temperature; we find them to be consistent with the monoclinic structural model proposed by us in an earlier report [Solid State Commun. 105), 247 (1998)]. This model indicates that the C5 axis of the molecule is tilted by an angle ≈18o from the monoclinic b axis in contrast with the molecular orientation proposed by Verheijen et al. [J. Chem. Phys. 166, 287 (1992)] where the C5 axis is parallel to the monoclinic b axis. In this calculation we have incorporated the effective bond charge Coulomb potential together with the Lennard-Jones potential between the molecule at the origin of the monoclinic unit cell and its six nearest neighbours, three above and three below. The minimum energy configuration for the molecular orientations turns out to be at θ=18o, φ=8o, and =5o, where θ, φ, and define the molecular orientations.

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