Theoretical rate constant calculations for O(3P) with saturated hydrocarbons

The O(3P) + CION reaction has been studicd in a fast flow system over the temperature range from 213 to 295 K, using the air-aftereIow technique for the detection of oxygen atoms under pseudo first order conditions. A value of (3.4 z 0.6) x 10-" exp[(-840 + 60)/T] cm3 molecule-' s-' has been obtaine

The rate coefficients for the reaction of O(3P) with the biogenic hydrocarbons A3-carene, a-pinene, and isoprene have been measured using a direct method for the first time. O(3P) was generated from the pulsed photolysis of NO2 or 0 3 a t 308 nm, and measured by resonance fluorescence at 131 nm. Rat

## ~~ ~ Rate constants for the gas-phase reactions of O(3P) atom with a series of rnonoterpenes have been determined at ambient temperature (ca. 302-309 K ) and atmospheric pressure using a relative rate technique Using the literature rate constants for O(3P) + isobutene, cis and trans-2-butene, 3

## Abstract The reaction mechanism of CF~3~CH~2~OH with OH is investigated theoretically and the rate constants are calculated by direct dynamics method. The potential energy surface (PES) information, which is necessary for dynamics calculation, is obtained at the B3LYP/6‐311G (d, p) level. The si

Rate constant ratios of the reactions of CFsO radicals with a number of hydrocarbons have been determiued at 298 + 2 K and atmospheric pressure using a relative rate method. Using a previously determined value k(CF,O+ CsHs) = I .2 x lo-i2 cm3 molecule-' s-i these rate constant mtios,provide estimate

It is shown that Ni4S) md 0t3P) atom quenching cffccts upon chemiluminescence from NO(B'fI)(u' = 0) areof importance when this emission is used to measure the recombination rate constant for 0 + 0 t $15 02 f bI. Values ofk, = (1.74 \* 0.13) X 10' and (4.05 + 0.17) X 10g~Zmole-2sec-' are found at 298