2013
DOI: 10.1021/jp4047837
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OH-Induced Oxidative Cleavage of Dimethyl Disulfide in the Presence of NO

Abstract: We report the results of the theoretical study of (•)OH-induced oxidative cleavage of dimethyl disulfide (DMDS) and the experimental study of the CH3SSCH3 + (•)OH reaction in the presence of (•)NO. Infrared low temperature argon matrix studies combined with ab initio calculations allowed us to identify cis-CH3SONO, which evidences the formation of the CH3SO(•) and CH3SH molecules in the course of the CH3SSCH3 + (•)OH reaction. Ab initio/quantum chemical topology calculations revealed details of the oxidative c… Show more

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Cited by 13 publications
(12 citation statements)
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“…Our suggestion 3 that the major products of the OH reaction with DMDS are CH 3 SH + CH 3 SO has been confirmed by theoretical studies 20,21 and experimental observations 21 . In our early work, the similarity of the HOD and D 2 O global spectra from the secondary reaction of OD + DMDS and the spectra from CH 3 SD reactions with OD were observed without a detailed examination of the spectra.…”
Section: Introductionsupporting
confidence: 57%
“…Our suggestion 3 that the major products of the OH reaction with DMDS are CH 3 SH + CH 3 SO has been confirmed by theoretical studies 20,21 and experimental observations 21 . In our early work, the similarity of the HOD and D 2 O global spectra from the secondary reaction of OD + DMDS and the spectra from CH 3 SD reactions with OD were observed without a detailed examination of the spectra.…”
Section: Introductionsupporting
confidence: 57%
“…This difference might lead to the higher %H transfer values for forming + Cys-SH or + I-SH than + Cys-SO • or + I-SO • (SI Appendix, Scheme S2). Hydrogen bond interactions discovered in the cysteinyl disulfide system also presented a distinct difference from the calculated results of • OH reactions with small organic disulfides (20,41).…”
Section: Resultsmentioning
confidence: 57%
“…Butkovskaya and Setser (19) later detected two product pairs: CH 3 SH/CH 3 SO • and CH 3 S • /CH 3 SOH, with the former pair being found more favorable from reactions of dimethyl disulfide with • OH. Bil et al suggested H atom transfer in the product complex [CH 3 SOH-• SCH 3 ] to be a key step to account for the detection of CH 3 SO • / HSCH 3 (20). However, the product pair CH 3 S • /CH 3 SOH was not detected and thus ruled out in their mechanism.…”
Section: Significancementioning
confidence: 99%
“…(1) a hemiaminal formation followed by (2) its rearrangement to facilitate the (3) third step, a water elimina-Scheme 1. [50] Particularly suitable for covalently bonded systems, [51][52][53] the electron localization function allows one to partition a molecular space into disjoint basins yielding a chemical interpretation based on concepts of core, bonding, and nonbonding electron pairs, [48,54] which proved to be useful for tracing chemical reactions, [55][56][57][58] also these involving proton and hydrogen transfer processes. [19][20][21][22] tion.…”
Section: Introductionmentioning
confidence: 99%
“…[44] Quantum chemical topology methods allow the analysis of a bonding situation and a bond evolution in molecules. [50] Particularly suitable for covalently bonded systems, [51][52][53] the electron localization function allows one to partition a molecular space into disjoint basins yielding a chemical interpretation based on concepts of core, bonding, and nonbonding electron pairs, [48,54] which proved to be useful for tracing chemical reactions, [55][56][57][58] also these involving proton and hydrogen transfer processes. [59,60] In particular, quantum chemical topology methods applied to the reaction between benzaldehyde and 4-amine-4H-1,2,4triazole indicated that the nucleophilic addition to form CN covalent bond is preceded by the creation of OH bond, [42,43] contrary to what is typically observed for other systems.…”
Section: Introductionmentioning
confidence: 99%