Journal of Physical Chemistry A, Vol.120, No.34, 6753-6760, 2016
The OH-Initiated Oxidation of CS2 in the Presence of NO: FTIR Matrix-Isolation and Theoretical Studies
We studied the photochemistry of the carbon disulfide-nitrous acid system with the help of Fourier transform infrared (FTIR) matrix isolation spectroscopy and theoretical methods. The irradiation of the CS2 center dot center dot center dot HONO complexes, isolated in solid argon, with the filtered output of the mercury lamp (lambda > 345 nm) was found to produce OCS, SO2, and HNCS; HSCN was also tentatively identified. The C-13, N-15, and H-2 isotopic shifts as well as literature data were used for product identifications. The evolution of the measured FTIR spectra with irradiation time and the changes in the spectra after matrix annealing indicated that the identified molecules are the products of different reaction channels: OCS being a product of another reaction path than SO2 and HNCS or HSCN. The possible reaction channels between SC(OH)S/SCS(OH) radicals and NO were studied using DFT/B3LYP/aug-cc-pVTZ method. The SC(OH)S and/or SCS(OH) intermediates are formed when HONO attached to CS2 photodissociates into OH and NO. The calculations, indicated that SC(OH)S-radical can form with NO two stable adducts. The more stable SC(OH)S center dot center dot center dot NO Structure is a reactant for a simple one-step process leading to OCS and HONS molecules. An alternative, less-stable-complex formed:between SC(OH)S and NO leads to formation of OCS and HSNO. The calculations, predict only:one stable complex between SCS(OH) radical and NO, which can dissociate along two channels leading, to HNCS and SO2 or HSCN and SO2 as the end products. The identified photoproducts indicate that both SC(OH)S and SCS(OH) adducts are intermediates in the CS2 + OH + NO reaction leading to different reaction products.