On possible symmetries of shells

Here, we consider transformations of generalised coordinates in describing the symmetry of shells. \* I.e. by the definition of Truesdell [6], material isomorphism of a point with itself. \*\* Cf. [2]. The symmetry of other related materials can be discussed along the lines developed here. \* If z f

Fullerene polyhedra are realisable within exactly 28 point groups: Ib, I, Td, Th, T, Dnh, Dnd, D. (n=l, 3, 5,6), Sl,,,, Cmnh, C,, C, (m=2,3), C, Ci, C,. Examples of each group can be found within the range CzO to Clw, and isolated-pentagon fullerenes can be constructed for all 28 groups. The presenc

## Abstract A simple proof of the theorem that completely filled shells of fermions do not contain any symmetry component other than the totally symmetric representation is given.

Based on our Hfickel calculated results for icosahedral fullerenes, the molecules C. with n = 60N are closed shell, where N has to satisfy the group requirements. By using the representative patch, we obtain the symmetries of "~ molecular orbitals for the icosahedral fullerenes. With the aid of the