101601-72-3Relevant academic research and scientific papers
Palladium catalyzed carbonylative annulation of the C(sp2)-H bond of N,1-diaryl-1H-tetrazol-5-amines and N,4-diaryl-4H-triazol-3-amines to quinazolinones
Chandrasekhar, Attoor,Ramkumar, Venkatachalam,Sankararaman, Sethuraman
supporting information, p. 8629 - 8638 (2018/12/12)
Pd(ii) catalyzed direct C-H carbonylative annulation of N,1-diaryl-1H-tetrazol-5-amines and N,4-diaryl-4H-1,2,4-triazol-3-amines gave the corresponding triazole and tetrazole fused quinazolinones in good yields. This methodology offers a convenient method for the synthesis of these important heterocyclic scaffolds in a highly atom economical process. On the mechanistic aspect weakly nucleophilic triazole and tetrazole moieties function as both directing as well as intramolecular nucleophiles. The catalytically active C-H activated intermediate dimeric Pd complex was isolated and characterized which on exposure to CO gas gave the corresponding tetrazole fused quinazolinone derivative. On the basis of isolation of the intermediate and observed kinetic isotope effects, a mechanism has been proposed for the C-H activated direct carbonylative annulation reaction.
Method for preparing 5-aminotetrazole compound
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Paragraph 0075; 0076; 0077; 0078, (2016/10/17)
The invention discloses a method for preparing a 5-aminotetrazole compound. The method comprises the following steps: adding bis-substituted selenourea shown in the formula II in the description, ionic liquid loaded iodobenzene diacetate shown in the formula III in the description, sodium azide and alkali A into a solvent B, stirring at -10 to -80 DEG C and conducting cyclization reaction, and after the reaction is finished, conducting aftertreatment on the reaction liquid to prepare the 5-aminotetrazole compound shown in the formula I in the description. Compared with the conventional method, a green reagent, namely, ionic liquid loaded iodobenzene diacetate, is adopted, so that the use of heavy metal is avoided, the operation is simple and convenient, and the reaction yield is high.
