C70 Is More Stable than C60: Experimental Determination of the Heat of Formation of C70

Photophysical properties of the singlet and triplet states of the fullerenes, &,, and CrO, have been investigated in toluene, benzene, hexane and ethanol solutions by pica-and nano-second laser flash photolysis techniques. Lifetimes, extinction coefficients, quantum efficiencies of the formation of

MM2-87 calculations have been performed on Cm (buckminsterfullerene; footballene) and C,, with full energy minimization. The steric energies for C,, and C,, were computed to be 179.9 and 177.9 kcal/mol, respectively. The heats of formation for C,, and C70 were computed to be 519.8 and 582.6 kcal/mol

The photoionization threshold region of Cm has been studied using single-photon ionization with synchrotron radiation. Mass selection is realized with a time-of-flight mass spectrometer. The ionization potential of CeO has been determined to 7.58?g:g eV. Significant structure in the photoionization

The energetics of the loss of C2 units from Cw and C,a has been extensively studied experimentally, but no consensus has yet been reached as to the energy of C2 dissociation from these fullerenes. We have used the Hat-tree-Fock self-consistent field theory and a hybrid of Hartree-Fock and density fu

Solid CbO and C70 were decomposed by heating in air at temperatures ranging from 150 to 250 "C and times ranging from 1 to 743 h. The products dissolved increasingly poorly with increasing temperatures and longer times. The rates at which soluble fullerenes were extracted from products decreased als