80723-54-2Relevant academic research and scientific papers
Synthesis of sulfondiimines by N-chlorosuccinimide-mediated oxidative imination of sulfiliminium salts
Candy, Mathieu,Guyon, Carole,Mersmann, Stefanie,Chen, Jia-Rong,Bolm, Carsten
supporting information; experimental part, p. 4440 - 4443 (2012/06/18)
Access to sulfondiimines: The oxidative one-pot chlorination-imination sequence of in situ generated free sulfilimines by N-chlorosuccinimide (NCS) allows the preparation of N-monosubstituted sulfondiimines under mild reaction conditions with excellent functional-group tolerance (see scheme; Mes=2,4,6-trimethylphenylsulfonyl) Copyright
Thiolate Reduction of Sulfilimines. 2. Further Evidence for a Highly Coupled Concerted Transition State
Young, Paul R.,Reid, Kevin J.
, p. 2695 - 2699 (2007/10/02)
The reduction of S-methyl-S(substituted phenyl)sulfilimmonium salts by 3-nitro-5-thiobenzoic acid (NTBA) and by 3-thiobenzoic acid (TBA) (aqueous solution, 25 deg C, μ 1.0 with KCl) is first order in proton activity and thiolate concentration in the range pH 3.5-6.6.The solvent deuterium isotope effects for the reduction by NTBA are kH/kD = 7.62 and 6.50 for the S-phenyl- and S-(4-nitrophenyl)-substituted compounds, respectively; for TBA reduction of the same compounds, kH/kD = 2.89 and 1.66, respectively.Plots of third-order rate constants for the proton and acetic acid catalyzed reactions against the ?n scale give sharply curved Hammet plots; approximate values for Βnuc vary in the range 1-1.4 for the proton-catalyzed reaction and 0.2-0.7 for the acetic acid catalyzed reaction and are also nonlinear when plotted against the ?n scale.General-acid catalysis is observed and Broensted α values of 0.61 and 0.49 are obtained for NTBA reduction of S-(4-methoxyphenyl)- and S-(4-nitrophenyl)substituted compounds, respectively; the Broensted α for the TBA reduction of the S-phenyl-subsituted compounds is ca. 0.7; Pxy = δα/δ?n ca. 0.13.The term Pxy = δΒnuc/δpKHAa = δpKRSHa ca. 0.08.The data are consistent with a mechanism in which S-S bond formation, S-N bond cleavage, and proton transfer all occur in a fully concerted transition state.
