The reaction of IO with CH3SCH3: products and temperature dependent rate coefficients by laser induced fluorescence
Abstract
The technique of pulsed laser photolysis was coupled to laser induced fluorescence detection of iodine oxide (IO) to measure rate coefficients, k1(T), for the title reaction IO + CH3SCH3
→ products (R1). A value of k1(298 K)
=
(1.44 ± 0.15)
× 10−14 cm3 molecule−1 s−1 was obtained, independent of bath gas pressure (50 < P(N2 or air)/Torr < 300). The expression k1(T)
=
(3.2 ± 1.4)
× 10−13exp{(−925 ± 136)/T)} adequately described the data over the range of temperatures (256 < T/K < 341) covered. Uncertainties (2σ) in the 298 K rate coefficient and the pre-exponential factor include an estimate of systematic error. The conventional Arrhenius behaviour of k1(T) and the lack of pressure dependence are suggestive of an abstraction mechanism, characterised by an energy barrier of E
≈ 8 kJ mol−1. The product yield for production of I-atoms was determined indirectly to be close to unity, indicating that the reaction proceeds via transfer of the O-atom from IO to CH3SCH3 to form CH3S(O)CH3. In general, the values of k1(T) measured in this work indicate that