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The gas-phase reaction of methane sulfonic acid with the hydroxyl radical without and with water vapor.

Physical chemistry chemical physics : PCCP (2013-03-02)
Solvejg Jørgensen, Camilla Jensen, Henrik G Kjaergaard, Josep M Anglada
RESUMEN

The gas phase reaction between methane sulfonic acid (CH3SO3H; MSA) and the hydroxyl radical (HO), without and with a water molecule, was investigated with DFT-B3LYP and CCSD(T)-F12 methods. For the bare reaction we have found two reaction mechanisms, involving proton coupled electron transfer and hydrogen atom transfer processes that produce CH3SO3 and H2O. We also found a third reaction mechanism involving the double proton transfer process, where the products and reactants are identical. The computed rate constant for the oxidation process is 8.3 × 10(-15) cm(3) s(-1) molecule(-1). CH3SO3H forms two very stable complexes with water with computed binding energies of about 10 kcal mol(-1). The presence of a single water molecule makes the reaction between CH3SO3H and HO much more complex, introducing a new reaction that consists in the interchange of H2O between HO and CH3SO3H. Our kinetic calculations show that 99.5% of the reaction involves this interchange of the water molecule and, consequently, water vapor does not play any role in the oxidation reaction of methane sulfonic acid by the hydroxyl radical.

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Sigma-Aldrich
Methanesulfonic acid, ≥99.0%
Sigma-Aldrich
Sodium methanesulfonate, 98%
Sigma-Aldrich
Potassium methanesulfonate, ≥98.0% (dry substance, T)
Sigma-Aldrich
Silver methanesulfonate
Supelco
Methanesulfonic acid solution, 0.1 M CH3SO3H in water (0.1N), eluent concentrate for IC
Sigma-Aldrich
Methanesulfonic acid solution, 70 wt. % in H2O
Sigma-Aldrich
Methanesulfonic acid solution, 4 M (with 0.2% (w/v) tryptamine)