Synthesis, Physical, Spectral Characterization and Biological Studies of the complexes of Ni2+, Cu2+, Co2+ and Cd2+ ions with Schiff base Derived from p-hydroxybenzaldehyde & o-Phenyl-diamine

Together, ortho (o)-phenyldiamine and para (p)-hydroxy benzaldehyde generate a Schiff base. In order to make transition metal complexes of Ni2+, Cu2+, Co2+ and Cd2+ ions, this Schiff base was employed as a ligand of choice. The generated transition metal complexes' chemical structure is examined using a variety of physical methods, such as fundamental analysis, conductivity (molar), susceptibility (magnetic), spectroscopy (IR), and ultraviolet-visible spectroscopy. According to the elemental data analysis, a 1:2 [M:2L] complex of the formula, M2+ L2 is produced (M2+ = Ni2+,Cu2+, Co2+, Cd2+ ions and L = Schiff base). All of the complexes were shown to be electrolytic in nature, as demonstrated by the molar conductance (conductivity) experiment. The 1H NMR and infrared (IR) spectral studies were utilized to fix the Schiff base binding sites that the transition metal ions are attached to. The anticipated coordination geometry and magnetic characteristics, such as the magnet with paramagnetic or diamagentic of the complexes were validated by the magnetic susceptibility tests and electronic spectral data. While the Cd2+ ion creates tetrahedral structure with low spin, Gram-negative bacteria as compared to its Schiff base. This idea can be improved upon with more adjustments and used in the pharmaceutical or medical industries.