Optical spectrum of the icosahedral C60- “follene-60”

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 PPP CI molecular-orbital theory for three-dimensional systems has been applied to study the UV spectrum of the truncated icosahedral CeO molecule. We have found that only the one-electron transitions to T,, symmetry (4.2270,4.7498 and 6.5182 eV) have oscillator strengths different from zero. Usi

Two icosahedral structures, a truncated icosahedron and a truncated dodecahedron, have been examined for the CGO cluster. Optimized geometries by INDO calculations are: in the former, 1.449 A (for pentagonal edges) and 1.397 A; in the latter, 1.41 A (for triangular edges) and 1.345 A. At these geom

The electronic structure of the truncated-icosahedral Cbo cluster ("footballene") is theoretically examined by performing a linear muffin-tin orbitals (LMTO) calculation.

We calculate the vibrational density of states (VDOS) for the C6,, molecule using the recursion method. The Born potential is adopted for calculating the dynamic matrix. The results show that the peak positions of VDOS for C6e are in qualitative agreement with those of the Raman and infrared measure

Substantial electronic and vibrational interactions between solvent and C60 are revealed in the resonance Raman spectra of C60 by the appearance of bands corresponding to 11 modes that are Raman and/or IR inactive. These bands result mainly from solvent-induced rather than isotope-induced lowering o