Gas-phase radicals in co-condensed adamantane matrix: proton splitting in the esr spectrum of the cycloheptatrienylperoxyl radical

Receired 2-I Jul) 1979 B\_r using a combination of 3 microreactor A irh m.ttri\-ESR spectroscopy the gas phase ozonol~ sis of ethq Iene and cisbutene 0.1s imestig-ated. For residence times in the order of milliseconds the existence of radicals WZIS proten. The ESR signal nuy m;tinlv be attributed to

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 resonance-enhanced multiphoton ionization (REMPI) of the OH radical in the gas phase was studied using an isothermal discharge-flow reactor for the production of OH radicals (H+NO,+OH+NO), tunable laser light from an excimer-pumpeddye laser, and a time-of-flight (TOF) mass spectrometer. A mass-r

Two transient absorptions have been detected in the infrared region during the gas-phase photolysis of azoisobutane/O:! mhtures nt 293 K. These transitions centred at 693.7 i 0.5 cm-' and 760 f 2 cm-' are assiged to the I-butylperoxy radical. A simple flow system at atmospheric piessure was used tog

The radical cation of three diazabenzenes, pyridaxine, pyrimidine, and pyrazine, have heen investigated by ESR in the temperature region of 6-I43 K. The observed spectra changes have been analyzed by the density matrix method with a model of uniaxial rotation of the radicals. A conspicuous differenc