Rate coefficient for the reaction of CH3O with CH3CHO at 25 °C

The absolute second-order rate coefficient for the reaction, O(3P) + CH300H + products, was measured to be ki = (1.06 ? 0.26) x cm3 molec-' s-l at 297 K, where the quoted error is 2 a including precision and estimated systematic errors. The possible presence of (CH3CHp),0 in our sample of CH,OOH lea

Using a pulse-radiolysis transient UV-VIS absorption system, rate constants for the reactions of F atoms with CH 3 CHO (1) and CH 3 CO radicals with O 2 (2) and NO (3) at 295 K and 1000 mbar total pressure of SF 6 was determined to be By monitoring the for-Ϫ12 Ϫ11 3 Ϫ1 Ϫ1 (4.4 Ϯ 0.7) ϫ 10 , and k ϭ

## Abstract The rate coefficient, __k__~1~, for the gas‐phase reaction OH + CH~3~CHO (acetaldehyde) → products, was measured over the temperature range 204–373 K using pulsed laser photolytic production of OH coupled with its detection via laser‐induced fluorescence. The CH~3~CHO concentration was

Based on a n FTIR-product study of the photolysis of mixtures containing Br,-CH3CH0 and Br,-CH3CHO-HCHO in 700 torr of N,, the rate constant for the reaction Br + CHBCHO + HBr + CH3C0 was determined to be 3.7 x lo-', cm3 molecule-' sf'. In addition, the selective photochemical generation of Br at A

The molecular modulation spectroscopic technique was employed to study the kinetics of NO3 radicals produced in the 253.7 nm photolysis of flowing gas mixtures of HNO3/CH4/O2 at room temperature. By computer fitting of the NO, temporal behavior, a rate coefficient of (2.3 ? 0.7) x lo-'' cm3 molecule

The CHsOs radical was generated by pulsed laser photolysis and was detected directly by photoionization mass spectrometry. The radical was photoionized by the Ar resonance lines ( 11.62 and 11.83 eV) and detected as the parent ion, CHsO: . Reactions of CH302 and CDs02 with NO were studied by time-re