The gas phase UV absorption spectrum of CH3O2 radicals: A reinvestigation

Alkyl and alkylperoxy radicals originating from dimethyl ether have been studied in the gas phase at 296 K. A pulse radiolysis-UV absorption technique was used. Absorption cross-sections were quantified over the wavelength range 220-350 nm. At 230 nm, O'cH3oclJ2 = (4.2 + 0.5)× 10 -18 cm 2 molecule-l

The UV absorption spectrum of trimethylstlyl radical was observed at 256 nm for the first time by photolysing allyltrimethylsilane and hexamethyldisilane with an ArF excimer laser. A bimolecular rate constant for recombination of trimethylsilyl radical of (2.5 +0.5)X10-" molecule-' cm3 s-' was measu

The ultraviolet absorption spectrum of the chloroethylperoxy radical, CH2ClCH202, and the kinetics of its self-reaction have been studied in the gas phase using a flash photolysis technique. The room temperature absorption cross section at 250 nm was determined to be bc~~ac~,o~ ( 250nm) = ( 3.64 5 0

Electronically excited OH (A 'C l , v=O) products were studied in the 210 to 290 nm photolysis of the reacting system CH, t 02+CH,02. The excitation spectrum is discussed in terms of formation of 0H(A22+, u=O) and OH(X %, u=O) from CH,O, and CH(X ZII) from CH+ Simplified systems of known reactions a