Multi‐component reaction indoline‐2,3‐dione derivatives, malononitrile, carbon disulfide and dimedone have led to newly synthesized 6′‐amino‐2′‐(4,4‐dimethyl‐2,6‐dioxocyclohexylidene)‐2‐oxospiro[indoline‐3,4′‐[1,3]dithiine]‐5′‐carbonitrile derivatives under acidic and base conditions with high efficiency during a simplified process. In acidic conditions, using MgO nanoparticleas as a catalyst, greater yields in shorter time was observed. The biological effects of synthetic derivatives such as antibacterial and antifungal effects based on inhibition zone diameter, minimum inhibitory concentration, minimum bactericidal concentration, minimum fungicidal concentration and antioxidant effects on DPPH free radical, have been the subject of previous studies. The results showed that some derivatives show higher antimicrobial effects compared to commercial drugs.
l,3-Dithiin with two sulfurs in its structure is a six-membered, sulfur-containing heterocyclic compound. New derivatives of 6'-amino-2'-(arylidene)spiro[indeno[1,2-b]quinoxaline[1,3]dithiine]-5'-carbonitrile were prepared by the multi-component reaction of active methylene compounds, carbon disulfide, malononitrile and multi-ring compounds containing a carbonyl group in the presence of piperidine as a catalyst at room temperature with high efficiency. The antimicrobial effects including antibacterial and antifungal effects based on inhibition zone diameter (IZD), minimum inhibitory concentration (MIC), minimum bactericidal concentration (MBC) and minimum fungicidal concentration (MFC) were studied.
In this study, Co3O4 nanocatalysts were constructed in environmentally appropriate conditions using controlled, effective, and facile microwave method. The final nanostructures were characterized by SEM, XRD, and TEM analyses. The products had a small size distribution, homogeneous morphology, and crystallographic structures associated with the formation of Co3O4 nanostructures. Moreover, EDS mapping analysis confirmed the existence of Co and O elements in the final structure, and the magnetic properties of the samples were investigated by VSM. The application of this nanostructure in a catalytic process was further examined, and the results suggested that it could be used as a novel candidate for the synthesis of arylidene barbituric and Meldrum,s acid through Knoevenagel condensation of aldehydes by barbituric and Meldrum,s acid in aqueous media. The high yield of these nanocatalysts would be justified by the nature of the nanostructure as well as the experimental procedure developed in this study, which affected the physicochemical features of the products.
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