A 193 nm laser photofragmentation time-of-flight mass spectrometric study of CH3SSCH3, SSCH3, and SCH3

Abstract

We have measured the time‐of‐flight (TOF) spectra for SCH₃, CH₃, and SSCH₃ formed in the photodissociation processes, CH₃SSCH₃+hν(193 nm)→2SCH₃ and CH₃+SSCH₃. The dissociation energies for the CH₃S–SCH₃ and CH₃SS–CH₃ bonds determined at 0 K by the TOF measurements are 72.4±1.5 and 55.0±1.5 kcal/mol, in agreement with the literature values. The threshold value for the formation of S₂ measured by the TOF spectrum for S₂ is in accord with the thermochemical threshold for the process, SSCH₃+hν(193 nm) →S₂+CH₃. The threshold energy determined from the TOF spectrum for S is found to be consistent with the thermochemical threshold for the photodissociation process, SCH₃+hν(193 nm) →S(¹D)+CH₃, an observation supporting that S atoms are not produced in the ground S(³P) state in the 193 nm photodissociation of SCH₃. This observation is rationalized by symmetry correlation arguments applied between the S+CH₃ product and SCH₃ states.