709-04-6Relevant articles and documents
Synergistic Indium and Silver Dual Catalysis: A Regioselective [2 + 2 + 1]-Oxidative N-Annulation Approach for the Diverse and Polyfunctionalized N-Arylpyrazoles
Thombal, Raju S.,Lee, Yong Rok
, p. 4681 - 4685 (2018)
Indium(III)/silver(I)-catalyzed [2 + 2 + 1] annulation of arylhydrazine hydrochlorides with β-enamino esters via multicomponent reactions for the construction of diverse and multisubstituted N-arylpyrazoles has been demonstrated. The oxidative cycloaddition proceeds via a cascade triple Michael addition/elimination/air oxidation. This novel protocol provides a rapid and efficient synthetic route to various 3,4-diester-substituted N-arylpyrazoles. The synthesized compounds are further utilized for various synthetic transformations.
Unveiling Potent Photooxidation Behavior of Catalytic Photoreductants
Targos, Karina,Williams, Oliver P.,Wickens, Zachary K.
supporting information, p. 4125 - 4132 (2021/04/07)
We describe a photocatalytic system that reveals latent photooxidant behavior from one of the most reducing conventional photoredox catalysts, N-phenylphenothiazine (PTH). This aerobic photochemical reaction engages difficult to oxidize feedstocks, such as benzene, in C(sp2)-N coupling reactions through direct oxidation. Mechanistic studies are consistent with activation of PTH via photooxidation and with Lewis acid cocatalysts scavenging inhibitors inextricably formed in this process.
A Convenient Synthesis of Pyrazole-imidazoline Derivatives by Microwave Irradiation
de S. Rosa, Getúlio,Souto, Bernardo A.,Pereira, Cynthia N.,Teixeira, Bruna C.,dos Santos, Maurício S.
, p. 1825 - 1830 (2019/04/30)
A series of 28 hybrids pyrazole-imidazolines 1a–n and 2a–n were synthesized by a new methodology using microwave irradiation, in short time (20–30?min), in low power (50–70?W), and in 34–92% yield. Among all methodologies evaluated, no side products were obtained. All derivatives were completely characterized by FT–IR, 1H and 13C NMR, GC–MS, and HRMS.