57486-68-7Relevant articles and documents
Microwave-Assisted Synthesis, Antimicrobial Activity, and SAR Study of 3-(2-Chlorobenzyl)-6-(Substituted Phenyl)-7H-[1,2,4]Triazolo[3,4-b][1,3,4]Thiadiazines
Joshi, Hitendra S.,Kalavadiya, Prakash L.,Tejal, D. Bhatt
, p. 1105 - 1113 (2021/10/26)
Abstract: An efficient, simple, and greener method has been described for the synthesis of 3-(2-chlorobenzyl)-6-(substituted phenyl)-7H-[1,2,4]triazolo[3,4-b][1,3,4]thiadiazines by using microwave irradiations. The one-pot reaction between 4-amino-5-(2-chlorobenzyl)-4H-1,2,4-triazole-3-thiol and various phenacyl bromide in the presence of reusable catalyst DABCO and EtOH solvents to give the desired products. We have discovered different organic compounds as antimicrobial agents and study for their structure-activity relationships (SAR). The antimicrobial screening shows moderate activities against used microbes.
Blue Light-Promoted N?H Insertion of Carbazoles, Pyrazoles and 1,2,3-Triazoles into Aryldiazoacetates
Stivanin, Mateus L.,Fernandes, Alessandra A. G.,da Silva, Amanda F.,Okada, Celso Y.,Jurberg, Igor D.
supporting information, p. 1106 - 1111 (2020/01/25)
Blue light irradiation of aryldiazoacetates leads to the formation of free carbenes, which can react with carbazoles, pyrazoles and 1,2,3-triazoles to afford the corresponding N?H inserted products. These reactions are performed under air and at room temperature, allowing the mild preparation of a variety of motifs found in biologically relevant targets. (Figure presented.).
Divergent Photocatalytic Reactions of α-Ketoesters under Triplet Sensitization and Photoredox Conditions
Dong, Xiao,Yoon, Tehshik P.,Zheng, Jian
supporting information, (2020/09/02)
The long-lived triplet excited states of transition metal photocatalysts can activate organic substrates via either energy- or electron-transfer pathways, and the rates of these processes can be influenced by rational tuning of the reaction conditions. The characteristic reactive intermediates generated, however, are distinct and can exhibit very different reactivity patterns. This mechanistic diversity available to photocatalytic reactions might thus offer an opportunity to engineer divergent reactions that give markedly different chemical outcomes under superficially similar conditions. Herein, we show that the photocatalytic reactions of benzoylformate esters with alkenes can be directed toward either Paternò-Büchi cycloadditions or allylic functionalization reactions under conditions favoring energy transfer or electron transfer, respectively. These studies provide a framework for designing other divergent photocatalytic methods that produce different sets of reaction outcomes under photoredox and triplet sensitization conditions.