Triplet state Raman spectra of C60 and C70

The triplet states of C6,, and C,,, (fullerenes) in solid phase at 3 and 77 K are detected by the time-resolved EPR technique. The observed time-resolved EPR spectra and the time profiles of the transient signals indicate that the geometries of Cw and CT0 are distorted from the soccerball geometry (

A technique to produce samples consisting primarily of Cw and C,,, by fractional sublimation of carbon soot was found and used to produce solid films of these molecules. Film compositions were determined using a surface analytical mass spectrometric technique. Vibrational Raman spectra of the purifi

We report vibrational Raman and infrared spectra for chemically separated CbO and C7e fullerenes. Thin film samples were prepared by subliming the chromatographically separated species onto appropriate substrates. The Cso Raman spectrum shows eight clear lines and two weaker ones. If CsO in fact has

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.

Of the 53 Raman active bands of A 1, E' 2, and E~ symmetries, 25 are observed in resonance Raman spectra of C7o in benzene; excitation responses from 457.9 to 514.5 nm show that A-term, B-term, and probably D-term scattering mechanisms operate and assist in the assignment of the electronic spectrum.