Kinetics and mechanism of the reaction between atomic chlorine and dimethyl selenide; comparison with the reaction between atomic chlorine and dimethyl sulfide
Physical Chemistry Chemical Physics Pub Date: 2002-07-29 DOI: 10.1039/B204657A
Abstract
Dimethyl selenide is the most abundant gaseous selenium species in marine environments. In this work, the value of the rate coefficient for the gas-phase reaction between dimethyl selenide and Cl atoms has been determined for the first time. The value of the second-order rate coefficient obtained was (5.0?±?1.4)?×?10?10 cm3 molecule?1 s?1. The very fast nature of the reaction means that, when estimating the lifetime of dimethyl selenide in the atmosphere, loss due to reaction with Cl atoms should be considered along with loss due to reaction with O3 and with OH and NO3 radicals. Analysis of the available kinetic data suggests that at 760 Torr the dominant reaction pathway for the reaction of Cl atoms with dimethyl selenide will be the addition of Cl to the Se atom forming an adduct of the type CH3Se(Cl)CH3. Theoretical
calculations, at the B3LYP/6-311++G(2df,p)//B3LYP/6-311++G(d,p) level of theory, show that at 298 K the value of ΔrH![[circle, cut, short horiz bar]](http://scimg.chem960.com/usr/1/B204657A.jpg)
for the formation of the adduct is ?111.4 kJ mol?1. This value may be compared to ?97.0 kJ mol?1, the value calculated for ΔrH for the formation of the analogous sulfur adduct, CH3S(Cl)CH3, following the reaction between Cl atoms and dimethyl sulfide. Variational RRKM theory was used to predict the thermal decomposition rates of the two adducts back to starting materials. The estimated rate constant for the decomposition of the selenium adduct to the reactants is 5?×?10?5 s?1, compared to 0.02 s?1 in the case of the sulfur adduct. However, our calculations suggest that the CH3Se(Cl)CH3
adduct, which is initially formed highly excited, will not be stabilised under atmospheric conditions, but rather will decompose to yield CH3SeCl and CH3, a process that is calculated to be exothermic with respect to the initial reactants by 5.8 kJ mol?1. The formation of CH3SCl and CH3 from the sulfur adduct, on the other hand, is endothermic by 20.8 kJ mol?1 with respect to the initial reactants, and is thus not expected to occur.
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Journal Name:Physical Chemistry Chemical Physics
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