938-73-8Relevant articles and documents
Method for preparing primary and secondary amide compounds
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Paragraph 0068-0078, (2021/02/06)
The invention belongs to the field of organic chemical synthesis, and particularly relates to a method for preparing primary and secondary amide compounds. The method for preparing primary and secondary amide compounds comprises the following steps of carrying out catalytic reduction on an N-substituted amide compound at 30-130 DEG C by using a protic solvent as a reduction reagent and a dichloro(p-methyl isopropylbenzene) ruthenium (II) dimer complex as a catalyst to obtain a reaction solution after the reduction reaction is finished, and carrying out post-treatment on the reaction solution to obtain the corresponding primary amide compound or secondary amide compound. According to the method for preparing the primary and secondary amide compounds, the transfer hydrogenation reaction of nitrogen-oxygen and nitrogen-carbon bonds is realized, the reaction conditions are mild and simple, the substrate application range is wide, the operation is convenient, and the corresponding primary amide compound or secondary amide compound is obtained with high efficiency and high selectivity.
Copper-Catalyzed Self-Condensation of Benzamide: Domino Reactions towards Quinazolinones
Sayyad, Nisar,Cele, Zamani,Aleti, Rajeshwar Reddy,Bera, Milan,Cherukupalli, Srinivasulu,Chandrasekaran, Balakumar,Kushwaha, Narva Deshwar,Karpoormath, Rajshekhar
supporting information, p. 5382 - 5388 (2018/10/20)
We herein report a simple and highly efficient microwave-assisted, copper-catalyzed and ligand-free synthetic method for 2-substituted 4(3H)-quinazolinones as domino reaction. This reaction proceeds via self-condensation of substrate (2-bromo/iodo benzamide) in the presence of a strong base and copper catalyst. The substituted quinazolinones were obtained in one-pot reaction by intramolecular cyclization (condensation) via Ullmann–type intermediate. Both the intermediates and quinazolinones were obtained in good yield and can be further used as building blocks for developing the potential novel drug-like compounds.
Base-promoted nucleophilic fluoroarenes substitution of C–F bonds
Su, Ji,Chen, Qian,Lu, Le,Ma, Yuan,Auyoung, George Hong Lok,Hua, Ruimao
supporting information, p. 303 - 307 (2017/12/11)
With the use of KOH/DMSO as the superbase medium, the nucleophilic fluoroarene substitution for C–F bonds is presented. The transformation proceeds smoothly with the use of fluoroarenes bearing not only electron-withdrawing group, but also electron-donating group and a variety of nucleophiles such as alcohols, phenols, amines, amides and nitrogen-heterocyclic compounds. The double nucleophilic substitution using ortho-difluoroarenes and nucleophiles bearing ortho-dinucleophilic groups results in the formation of 2,3-dihydro-1,4-benzodioxins, dibenzo[b,e][1,4]dioxins and 10H-phenoxazines in moderate to good yields.