Catalyzed syntheses of novel series of spiro thiazolidinone derivatives with nano FeO: spectroscopic, X-ray, Hirshfeld surface, DFT, biological and docking evaluations.

Twelve spiro thiazolidinone compounds (A-L) were synthesized via either conventional thermal or ultrasonication techniques using FeO nanoparticles. The modification of the traditional procedure by using FeO nanoparticles led to enhancement of the yield of the desired candidates to 78-93% in approximately half reaction time compared with 58-79% without catalyst. The products were fully characterized using different analytical and spectroscopic techniques. The structure of the two derivatives 4-phenyl-1-thia-4-azaspirodecan-3-one (A) and 4-(p-tolyl)-1-thia-4-azaspirodecan-3-one (B) were also determined using single crystal X-ray diffraction and Hirshfeld surface analysis. The two compounds (A and B) were crystallized in the orthorhombic system with Pbca and P222 space groups, respectively. In addition, the crystal packing of compounds revealed the formation of supramolecular array with a net of intermolecular hydrogen bonding interactions. The energy optimized geometries of some selected derivatives were performed by density functional theory (DFT/B3LYP). The reactivity descriptors were also calculated and correlated with their biological properties. All the reported compounds were screened for antimicrobial inhibitions. The two derivatives, F and J, exhibited the highest levels of bacterial inhibition with an inhibition zone of 10-17 mm. Also, the two derivatives, F and J, displayed the most potent fungal inhibition with an inhibition zone of 15-23 mm. Molecular docking investigations of some selected derivatives were performed using a B-DNA (PDB: 1BNA) as a macromolecular target. Structure and activity relationship of the reported compounds were correlated with the data of antimicrobial activities and the computed reactivity parameters.