Collisional dissociation of CH2Br+2 in selected internal energy states

An analysis of thermochemical and kinetic data on the bromination of the halomethanes CH, ,X,, (X = F, C1, Br; n = 1-31, the two chlorofluoromethanes, CH,FCI and CHFCl,, and CH,, shaws that the recently reported heats of formation of the radicals CH2C1, CHClz, CHBr2, and CFC12, and the C-H bond diss

The kinetics and equilibrium of the gas-phase reaction of CHaCFZBr with IZ were studied spectrophotometrically from 581 to 662°K and determined to be consistent with the following mechanism: KIZ

Double-ionization energies of CH 3 Br, CH 2 Br 2 and CHBr 3 to singlet and triplet electronic states of their dications were calculated and measured. Double-charge-transfer spectroscopy was employed in the experimental part of the study; the computational work was carried out using a semi-empirical

Collisional energy transfer between '$ and 'Z: Rydberg s tates of K2 has been studied by optical-optical double resonance (OODR) resolved fluorescence spectroscopy. The collision-induced probability for transition from a '4 state to an adjacent 'Z: state of K2 depends much more strongly on AJ than o