Electronic structures of C60Br6, C60Br8, C60Br24

Analysis of the Raman spectra of three brominated ftierenes, obtained at 1 cm-' resolution, provides supporting evidence for the structural models derived from X-my single crystal studies. The measured Raman frequencies can be mtiottaliied on tbe basis of symmetry considerations.

Electronic structures of the icosahedral C&H,,, hydrocarbon and its perfhroro analog, C6nF6,,, are examined at the HF/4-31G and HF/6-3 lG\*\* levels. The calculated C-C bond lengths are as large as 1.57 A in C63Hb0 and 1.63 A in CbDF60. The bond lengthening is attributed to the H-H and F-F steric in

The electronic and vibrational structures of C,, and C,,, have been calculated at the PM3 semiempirical level. C, has a partially delocalized structure, while C,, has both a localized set and a delocalized set of MOs. As with AM1 and MNDO, PM3 predicts the heat of formation of C,, to be greater than

The electronic structure of Ca@Cso in the gas phase was probed by ultraviolet photoelectron spectroscopy (UPS) ofCa@CG. The electron affinity of Ca@C, was found to be 3.0 eV. The spectrum suggests that Ca donates its two 4s electrons to the Cm t,. LUMO. Ab initio self-consistent field Hartree-Fock c