92523-34-7Relevant academic research and scientific papers
Rhodium(iii)-catalyzed cascade C-H functionalization/annulation of sulfoximines with iodonium ylides for the synthesis of cyclohexanone-1,2-benzothiazines
Chen, Lu,Hao, Liqiang,Ji, Yafei,Wang, Yangyang,Wang, Zhichao,Wu, Gaorong,Xu, Xiaobo
supporting information, p. 887 - 894 (2022/02/03)
A highly efficient Rh(iii)-catalyzed cascade C-H activation/annulation of sulfoximines with iodonium ylides under metal-oxidant-free conditions has been reported. The fused cyclohexanone-1,2-benzothiazine scaffold is readily achieved with a one-pot proces
Preparation of S-2-halophenyl-2,1-benzothiazines
Garimalla, Aswin,Harmata, Michael
, (2021/03/15)
Derivatives of 2,1-benzothiazines are useful synthetic intermediates for a variety of applications. We became interested in developing a one-pot procedure to S-2-halophenyl-2,1-benzothiazines as potential precursors to P,N type ligands for metals. Accordingly, we reacted S-2-halophenyl-S-methylsulfoximines with 2-bromobenzaldehydes using the Buchwald-Hartwig reaction under conditions previously developed in our laboratory. We found that 2-halophenylmethyl sulfoximines show lower reactivity in process than methylphenyl sulfoximine. Among the 2-(S)-2-halophenyl-(S)-methylsulfoximines tested, S-2-fluorophenyl-S-methyl sulfoximine afforded higher yields of benzothiazines than the bromine- or chlorine-substituted congeners. In the coupling of S-2-halophenyl-S-methylsulfoximines to 2-bromobenzaldehyde, using Ruphos as a ligand gave the best yields.
Nickel-Catalyzed N-Arylation of NH-Sulfoximines with Aryl Halides via Paired Electrolysis
Liu, Dong,Liu, Zhao-Ran,Ma, Cong,Jiao, Ke-Jin,Sun, Bing,Wei, Lei,Lefranc, Julien,Herbert, Simon,Mei, Tian-Sheng
supporting information, p. 9444 - 9449 (2021/03/29)
A novel strategy for the N-arylation of NH-sulfoximines has been developed by merging nickel catalysis and electrochemistry (in an undivided cell), thereby providing a practical method for the construction of sulfoximine derivatives. Paired electrolysis is employed in this protocol, so a sacrificial anode is not required. Owing to the mild reaction conditions, excellent functional group tolerance and yield are achieved. A preliminary mechanistic study indicates that the anodic oxidation of a NiII species is crucial to promote the reductive elimination of a C?N bond from the resulting NiIII species at room temperature.
Synthesis of NH-Sulfoximines by Using Recyclable Hypervalent Iodine(III) Reagents under Aqueous Micellar Conditions
Zhang, Guocai,Tan, Hongsheng,Chen, Weichun,Shen, Hong C.,Lu, Yue,Zheng, Changwu,Xu, Hongxi
, p. 922 - 928 (2020/02/20)
The synthesis of NH-sulfoximines from sulfides has been first developed under mild conditions in an aqueous solution with surfactant TPGS-750-M as the catalyst at room temperature. In this newly developed process, a simple and convenient recycling strategy to regenerate the indispensable hypervalent iodine(III) is used. The resulting 1,2,3-trifluoro-5-iodobezene can be recovered almost quantitively from the mixture by liquid–liquid extraction and then oxidized to give the corresponding iodine(III) species. This optimized procedure is compatible with a broad range of functional groups and can be easily performed on a gram scale, providing a green protocol for the synthesis of sulfoximines.
Iron(II)-Catalyzed Direct Synthesis of NH Sulfoximines from Sulfoxides
Yu, Hao,Li, Zhen,Bolm, Carsten
supporting information, p. 324 - 327 (2017/12/15)
Free NH-sulfoximines were directly prepared from sulfoxides through iron catalysis by applying a readily available, shelf-stable hydroxylamine triflic acid salt. No additional oxidant is needed, and the substrate scope is broad, including a range of heter
Persulfate-promoted oxidative C-N bond coupling of quinoxalinones and: NH -sulfoximines
Sumunnee, Ladawan,Pimpasri, Chaleena,Noikham, Medena,Yotphan, Sirilata
supporting information, p. 2697 - 2704 (2018/04/27)
The persulfate-meditated oxidative C-N bond coupling of the C-H bond of quinoxalinones and the N-H bond of NH-sulfoximines is reported. The reaction proceeds smoothly under transition metal-free conditions and provides good to excellent yields of sulfoximidoyl-functionalized quinoxalinone products under mild conditions. The optimized conditions were found to be suitable for a range of sulfoximine and quinoxalinone substrates. This reaction offers a new and convenient strategy to directly install the sulfoximine moiety into the C3 position of quinoxalinone.
Eaton's reagent-mediated metal-free and efficient synthesis of NH-sulfoximines
Wang, Jianping,Zhang, Jian,Miao, Kun,Yun, Hongying,Shen, Hong C.,Zhao, Weili,Liang, Chungen
supporting information, p. 333 - 337 (2017/01/03)
NH-sulfoximines can be prepared efficiently from corresponding sulfoxides in the presence of sodium azide and Eaton's reagent. This metal-free and efficient methodology is applicable to a wide variety of functionalized sulfoxides to afford NH-sulfoximines in good to excellent yields with shorter reaction time than previously reported methods.
Rhodium-catalyzed direct synthesis of unprotected NH-sulfoximines from sulfoxides
Miao, Jinmin,Richards, Nigel G. J.,Ge, Haibo
supporting information, p. 9687 - 9689 (2014/08/18)
A novel rhodium-catalyzed imination of sulfoxides using O-(2,4-dinitrophenyl)hydroxylamine is developed under mild conditions with good functional group tolerance. This method provides an efficient access to free NH-sulfoximines, an important structural u
Formation of a benzothiazine via the reaction of ortho-halo sulfoximines with copper salts
Garimallaprabhakaran, Aswinkumar,Hong, Xuechuan,Harmata, Michael
experimental part, p. 119 - 128 (2012/05/05)
The formation of an interesting benzothiazine from the reaction of S-(o-halophenyl)-S-methyl sulfoximines in the presence of copper salts is reported. The overall yield is 27% over three steps from commercially available 2-halothioanisoles in the best cas
