New MCRs: Preparation of Novel Derivatives of Pyrazoloazepines in Ionic Liquid and Study of Biological Activity

Abstract

In the present investigation, we have effectively synthesized innovative pyrazoloazepine derivatives with notable yields. The synthesis was successfully accomplished by means of a multicomponent reaction that was carried out in an ionic liquid at ambient temperature conditions. The constituents implicated in this procedure consisted of NH-acids such as isatins, α-halo ketones, electron deficient acetylenic compounds, hydrazine, and hydrazonoyl chlorides. Significantly, the inclusion of an NH group appeared as a crucial characteristic in the resultant compounds. Our investigation encompassed the examination of the antioxidant capabilities exhibited by these substances. The study utilized various assays, including ferric reduction capacity and diphenyl-picrylhydrazine (DPPH) radical trapping, to investigate the possible antioxidant benefits of the substances. The antioxidative capacity of the produced pyrazoloazepine compounds was evaluated by various evaluations. The synthetic approach we employ offers numerous advantages. To begin with, the prompt response time enables the expedited generation of complex compounds. Furthermore, the significant outputs of the specific items highlight the effectiveness of our approach. The ease with which the catalyst and products can be separated enhances the efficiency of the purification procedure.