Kinetic study of the hydroxyl radical-propene reaction

Absolute rate coefficients for the reactions of the hydroxyl radical with ethane (kl, 297-800 K) and propane (kz, 297-690 K) were measured using the flash photolysis-resonance fluorescence technique. The rate coefficient data were fit by the following temperature-dependent expressions, in units of c

Rate coefficients for OH reactions with the 2-5 carbon aliphatic aldehydes have been measured under pseudo first-order conditions in OH. OH was generated by flash photolysis of H 2 0 a t wavelengths greater than 165 nm and its concentration monitored using time-resolved resonance fluorescence spectr

The kinetics of the reaction CH,+OH (+M)dCH,OH (+M) was studied at room temperature by pulse radiolysis of SF,/ CHJH# mixtures. The methyl radical decay was followed by monitoring the UV absorption signals at 216.4 nm. A pressure dependence of k, was observed with values ranging from (5.8 kO.3) x 10

The kinetics of the reactions CsH,+OH( t M) +products ( + M ) ( I ) were studied at room temperature by pulse radiolysis of C2H6/H20/SFb mixtures. The ethyl radical decay was followed by monitoring the UV absorption signals at 205 nm. The experimentally determined value of k, is (7.1 f 1.0) x lOto M

Br2 reaction has been mranued at room temperature in two discharge-tlo\\ \) stems u~ng whrr electron p~mmssneuc rcsommce or laser-induced fluorescence for OH analysis The result is R = (4 12 0.7) x 10-11 cm3 molrcule-1 s-' \_ The measurement of the Br J ield produced in this reaction indicates that

The reactions of HI with OH and NO3 have been studied in discharge-flow reactors coupled to EPR and mass spectrometry for analysis, The rate constants for the reactions HI+OH+H20 t I (1) and HI t NO3 +HNO, t I (2) were determined al 298 K: k,=(3.3+0.2)xlO-" and kz = (2.5f0.8) X 10 --IS cm3 molecule-