Raman study of the thermal decomposition of dioxygenyl hexafluoroarsenate, O AsF

The pressure dependence of the thermal decomposition of nitrous oxide was investigated behind shock waves at temperatures between 1570 K and 3100 K and pressures from 0 3 atm to 450 atm Nitrous oxide concentration profiles were measured using IR emission from the 4.5p n u I band of N,O. The pressure

## Abstract Thermal decomposition of cyclopentadiene to __c__‐C~5~H~5~ (cyclopentadienyl radical) + H (1) and the reverse bimolecular reaction (−1) are studied quantum‐chemically at the G2M level of theory. The dissociation pathway has been mapped out following the minimum energy path on the potent

## Abstract Thermal pyrolysis of halon 1211 (CBrClF~2~), diluted in nitrogen, in a tubular alumina reactor, has been studied over the temperature range of 773–1073 K at residence times from 0.3 to 2 s. At temperatures below 973 K, the major products were CCl~2~F~2~, CBr~2~F~2~, C~2~Cl~2~F~4~, C~2~B

## Abstract Thermal decomposition of bis(trifluoromethyl) peroxydicarbonate has been studied. The mechanism of decomposition is a simple bond fission, homogeneous first‐order process when the reaction is carried out in the presence of inert gases such as N~2~ or CO. An activation energy of 28.5 kca