- Synthesis method for intermolecular N-N bonding and corresponding synthesized compound
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The invention relates to a synthesis method for intermolecular N-N bonding and a corresponding compound. According to the invention, the direct insertion reaction of N-H bonds by nitrene is completed, and a brand-new N-N coupling reaction method is developed. The reaction uses a nitrene precursor, under the action of a catalyst, an intermolecular direct N-N coupling reaction of the nitrene precursor and an amine compound can be realized, and a tetra-substituted hydrazine compound is constructed in one step.
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Paragraph 0030-0032; 0033-0037; 0045-0046; 0058; 0062
(2021/07/24)
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- Nitrene-mediated intermolecular N–N coupling for efficient synthesis of hydrazides
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N–N linkages are found in many natural compounds and endow fascinating structural and functional properties. In comparison to the myriad methods for the construction of C–N bonds, chemistry for N–N coupling, especially in an intermolecular fashion, remains underdeveloped. Here, we report a nitrene-mediated intermolecular N–N coupling of dioxazolones and arylamines under iridium or iron catalysis. These reactions offer a simple and efficient method for the synthesis of various hydrazides from readily available carboxylic acid and amine precursors. Although the Ir-catalysed conditions usually give higher N–N coupling yield than the Fe-catalysed conditions, the reactions of sterically more demanding dioxazolones derived from α-substituted carboxylic acids work much better under the Fe-catalysed conditions. Mechanistic studies revealed that the nitrogen atom of Ir acyl nitrene intermediates has strong electrophilicity and can undergo nucleophilic attack with arylamines with the assistance of Cl···HN hydrogen bonding to form the N–N bond with high efficiency and chemoselectivity. [Figure not available: see fulltext.].
- Wang, Hao,Jung, Hoimin,Song, Fangfang,Zhu, Shiyang,Bai, Ziqian,Chen, Danye,He, Gang,Chang, Sukbok,Chen, Gong
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p. 378 - 385
(2021/03/31)
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- Formation of enehydrazine intermediates through coupling of phenylhydrazines with vinyl halides: Entry into the Fischer indole synthesis
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Cut to the chase: Direct formation of an enehydrazine, an intermediate in the classic Fischer indole synthesis, solves the regioselectivity problem associated with indolization. This approach not only achieves selective synthesis of indoles through proper selection of the vinyl halide, but also leads to quick construction of desoxyeseroline and esermethole, as well as the key structural motif in the Akuammiline alkaloid vincorine. Copyright
- Zhan, Fuxu,Liang, Guangxin
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p. 1266 - 1269
(2013/03/13)
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