Gas phase hydrolysis of sulfur tetrafluoride: A comparison of the gaseous and liquid phase rate constants

Abstract

The second‐order gas phase reaction rate constant for SF₄ hydrolysis to SOF₂ has been determined by mass spectrometry and found to be in the range (0.9–2.6)×10⁻¹⁹ cm³ s⁻¹ at 350 K. The hydrolysis of SOF₂ in the gas phase is 3 to 4 orders of magnitude slower than that of SF₄. Since only liquid phase rate constant data exist for SF₄ and none for SOF₂, our gas phase rate constant for SF₄ was extrapolated to liquid H₂O density for comparison to the literature and was found to be consistent with the rate constant for complete aqueous hydrolysis of SF₄, which was indirectly determined by the conductivity change in a pulse radiolysis study of SF₆ in aqueous solution. The agreement between these values provides direct support for the conclusion of the pulse radiolysis study, namely, that the rate‐determining step involves water attack on SF₄. The present data further indicate that SOF₂ cannot be an intermediate in the aqueous hydrolysis of SF₄. A reaction is proposed for both gaseous and liquid phase hydrolyses which involve a common intermediate.