303152-31-0Relevant articles and documents
Iron-Catalyzed Electrophilic Amination of Sodium Sulfinates with Anthranils
Liang, Baihui,Huang, Junjie,Zhu, Weidong,Li, Yawen,Jiang, Lanping,Gao, Yang,Xie, Feng,Li, Yibiao,Chen, Xiuwen,Zhu, Zhongzhi
, p. 1466 - 1473 (2021/02/09)
A practical method for the synthesis of N-(2-carbonylaryl) benzenesulfonamides via an iron-catalyzed electrophilic amination of sodium sulfinates with anthranils is described. This redox-neutral transformation has high atom efficiency and is achieved under simple and mild reaction conditions. A wide range of anthranils and sodium sulfinates were compatible in this transformation. Moreover, the synthetic potential of this methodology was further demonstrated by the synthesis of various useful N-heterocycles and derivatives.
Synthesis method of o-acylaniline sulfonamide compound
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Paragraph 0175-0181, (2020/10/30)
The invention discloses a synthesis method of a o-acylaniline sulfonamide compound. The preparation method is characterized by comprising the following steps: mixing a benzisoxazole compound as shownin a chemical formula I, a sodium sulfinate compound as shown in a chemical formula II, a metal catalyst and a solvent, and reacting to obtain the o-acylaniline sulfonamide compound as shown in a chemical formula III, in the formula, R1 is a monosubstituted or polysubstituted group on a benzene ring. The synthesis method can be used for efficiently synthesizing the o-acylaniline sulfonamide compound, has the advantages of simple synthesis steps, safety in operation, good compatibility of the synthesis method to functional groups and high atom economy, and is easy for industrial synthesis.
C-to N-Center Remote Heteroaryl Migration via Electrochemical Initiation of N Radical by Organic Catalyst
Liu, Chengkou,Jiang, Qiang,Lin, Yang,Fang, Zheng,Guo, Kai
supporting information, p. 795 - 799 (2020/02/04)
Herein an exogenous oxidant- A nd metal-free electrochemical heteroaryl migration triggered by N radicals to construct new N-C bonds was developed. This methodology features a high atom economy and utilization rate of energy, and it is insensitive to water and air. Moreover, a user-friendly undivided cell was employed. The use of an organic catalyst makes it more efficient, green, and practical.
Visible-light-promoted N-centered radical generation for remote heteroaryl migration
Cai, Chen,Fang, Zheng,Guo, Kai,Jiang, Qiang,Liu, Chengkou,Yuan, Chengcheng
supporting information, p. 7663 - 7670 (2020/10/14)
Herein, an efficient visible-light-mediated N-H heteroarylationviaremote heteroarylipso-migration has been accomplished. Moderate to good yields were obtained with good functional group tolerance. Moreover, a simple and readily available organic photoredox catalyst was employed, avoiding the use of complex and costly noble metal compounds.
Manganese-Catalyzed ortho-C-H Amidation of Weakly Coordinating Aromatic Ketones
Kong, Xianqiang,Xu, Bo
, p. 4495 - 4498 (2018/08/07)
An efficient manganese-catalyzed ortho-C-H amidation of weakly coordinating aromatic ketones using the readily available sulfonyl azide as the amination reagent is developed. The key step is the ketone directed aromatic metalation using the in situ generated reactive Mn intermediate, MnMe(CO)5. This method offers excellent chemical yields, high regioselectivities, and good functional group tolerance.
Ru(ii)-catalyzed intermolecular ortho-C-H amidation of aromatic ketones with sulfonyl azides
Bhanuchandra,Ramu Yadav,Rit, Raja K.,Rao Kuram, Malleswara,Sahoo, Akhila K.
, p. 5225 - 5227 (2013/06/27)
Ru(ii)-catalyzed intermolecular ortho-C-H amidation of weakly coordinating aromatic ketones with sulfonyl azides is reported. The developed reaction protocol can be extended to various substituted aromatic ketones to afford a wide range of desired C-N bond formation products in good yields.
