Rate constants and kinetic isotope effects for methoxy radical reacting with NO₂ and O₂

Relative rate studies were carried out to determine the temperature dependent rate constant ratio k₁/k_2a: CH ₃O· + O₂ → HCHO + HO₂· and CH₃O· + NO₂ (+M) → CH₃ONO ₂ (+M) over the temperature range 250-333 K in an environmental chamber at 700 Torr using Fourier transform infrared detection. Absolute rate constants k₂ were determined using laser flash photolysis/laser- induced fluorescence under the same conditions. The analogous experiments were carried out for the reactions of the perdeuterated methoxy radical (CD ₃O·). Absolute rate constants k₂ were in excellent agreement with the recommendations of the JPL Data Evaluation panel. The combined data (i.e., k₁/k₂ and k₂) allow the determination of k₁ as 1.3_-0.5^+0.9 × 10^-14 exp[-(663 ± 144)/T] cm³ s^-1, corresponding to 1.4 × 10^-15 cm³ s^-1 at 298 K. The rate constant at 298 K is in excellent agreement with previous work, but the observed temperature dependence is less than was previously reported. The deuterium isotope effect, k_H/k_D, can be expressed in the Arrhenius form as k₁/k₃ = (1.7_-0.4 ^+0.5) exp((306 ± 70)/T). The deuterium isotope effect does not appear to be greatly influenced by tunneling, which is consistent with a previous theoretical work by Hu and Dibble. (Hu, H.; Dibble, T. S., J. Phys. Chem. A 2013, 117, 14230-14242.)