Vacuum ultraviolet photodissociation and photoionization studies of CH3SCH3 and CH3S

Abstract

We have measured the translational energy releases of the laser photodissociation processes CH₃SCH₃+hν (193 nm)→CH₃+CH₃S [process (1)] and CH₃SCH₂+H [process (2)]; and CH₃S+hν (193 nm)→S+CH₃ [process (3)]. The onsets of the translational energy distributions for photofragments of processes (1) and (2) allow the direct determination of 74.9±1.5 and 91±2.5 kcal/mol for the dissociation energies of the CH₃–SCH₃ and H–CH₂SCH₃ bonds at 0 K, respectively. The threshold observed for S formed by process (3) is consistent with the conclusion that the production of S(³P) is small compared to S(¹D). The photoelectron–photoion coincidence (PEPICO) spectra for CH₃SCH⁺₃, CH₃SCH⁺₂, CH₃S⁺ (or CH₂SH⁺ ), and CH₂S⁺ resulting from photoionization of CH₃SCH₃ have been measured in the wavelength region of 900–1475 Å. The PEPICO study allows the construction of a detailed breakdown diagram for the formation of CH₃SCH⁺₂, CH₃S⁺ (or CH₂SH⁺ ), and CH₂S⁺ from energy‐selected CH₃SCH⁺₃ ions.