51480-12-7Relevant articles and documents
Synthetic routes to, transformations of, and rather surprising stabilities of (N-Methyl-N-phenylcarbamoyl)sulfenyl Chloride, ((N-Methyl-N-phenylcarbamoyl) dithio)carbonyl chloride, and related compounds
Schrader, Alex M.,Schroll, Alayne L.,Barany, George
experimental part, p. 7882 - 7892 (2011/12/14)
(Figure presented) The title compound classes, (carbamoyl)sulfenyl chlorides and ((carbamoyl)dithio)carbonyl chlorides, have been implicated previously as unstable, albeit trappable, intermediates in organosulfur chemistry. The presentwork reports for each of these functional groups: (i) several routes to prepare it in the N-methylaniline family; (ii) its direct structural characterization by several spectroscopic techniques; (iii) its rather unexpected stability and its ultimate fatewhen it decomposes; (iv) a series of further chemical transformations that give highly stable derivatives, each in turn subject to thorough characterization. Relevant kinetic and mechanistic experiments were carried out, including some with p-methyl- and 2,6-dimethyl-substituted N-methylanilines. Given that the title compounds can be isolated and are relatively stable, they may find applications in the preparation of thiolyzable and/or photolabile protecting groups for the sulfhydryl function of cysteine and for the development of new protein synthesis and modification reagents
A General Strategy for Elaboration of the Dithiocarbonyl Functionality, -(C=O)SS-: Application to the Synthesis of Bis(chlorocarbonyl)disulfane and Related Derivatives of Thiocarbonic Acids
Barany, George,Schroll, Alayne L.,Mott, Andrew W.,Halsrud, David A.
, p. 4750 - 4761 (2007/10/02)
A variety of sulfenyl chlorides have been reacted with a variety of alkoxythiocarbonyl compounds to give adducts which then lose (spontaneously, or upon thermolysis, or in the presence of Lewis acid catalyst) the alkyl chloride to provide an assortment of dithiocarbonyl compounds in good to excellent yields.The preparations of bis(chlorocarbonyl)disulfane (1), ((trichloromethyl)dithio)carbonyl chloride (2), ((alkoxycarbonyl)dithio)carbonyl chlorides (3 and 4), and (((alkylthio)carbonyl)dithio)carbonyl chlorides (5 and 6) by this methodology were optimized; some of the (alkoxydichloromethyl)disulfanyl adducts, e.g., ROCCl2SS(C=O)Cl (10) and ROCCl2SS(C=O)OR'(54), were reasonable stable and could be isolated.All new compounds were characterized by analytical data, 1H and 13C NMR, IR, UV, and mass spectrometry, and high-yield derivatizations with alcohols or N-methylaniline.The reaction with N-methylaniline was also adapted to a rapid, convenient, and precise analytical-scale assay of mixtures of compounds containing acid chloride and/or sulfenyl chloride functionalities.The kinetics, mechanism, and stereochemistry of the dithiocarbonyl synthesis are discussed.