Reaction of oxygen atoms with ethylene and vinylbromide

Direct detection of the products of the 0 + C2H3Br reaction occurring in high-intensity room temperature crossed beams reveals that the reaction proceeds by three reactive channels, the products of which are, 1. CH3 + BrCO (and/ or Br + CO); 2. CH2 Br + HCO (and possibly H + CO), and 3. HzCzO + HBr.

Competitive studies of the reactions of ground-state oxygen atoms, generated by mercury-photosensitized decomposition of nitrous oxide, have been carried out with ethylene and all the fluoroethylenes using 2-(trifluoromethy1)-propene as reference compound. From measurements at 25°C and 150°C relativ

The reaction between ozone and carbon monoxide was reinvestigated in the range of 80-160°C. The previously reported rate law -d[O,l/dt = k.[o,][Co] + k,[0,l2 was confirmed and simulated using a mechanism based on an impurity-initiated chain reaction. When the CO was sufficiently purified, k, tended

Broad chemiluminescent emission from the O('P) i-C!& reaction was observed in the 300-450 m-n region and was attributed to the B 'Z; -X %: transition of ST. First-order kinetics was observed in both reactants. The chemilumineseent rate constant, photon yield and utilization of exoergicity in chemilu

The reaction of 1,3-cyclopentadiene (CPD) with ground-state atomic oxygen O ( 3 P ) , produced by mercury photosensitized decomposition of nitrous oxide, was studied. The identified products were carbon monoxide and the following C4H6 isomers: 3-methylcyclopropene, 1,3-butadiene, 1,2-butadiene, and