This study performed the synthesis, characterization, and biological activity of cobalt(II)complexes with cefuroxime, cefixime, and their mixed ligand. The coordination complexeswere synthesized using stoichiometric reactions under controlled conditions, achievingyieldsof 75-81%. Characterization was performed using UV-Vis spectroscopy, FTIRspectroscopy, and molar conductivity measurements. UV-Vis spectra indicated significant electronictransitions due to metal-ligand interactions, while FTIR spectra showed characteristic shifts and new peaks confirming complex formation. The complexes exhibited distinct colors: purplefor [Co(CFX)Cl₂], green for [Co(CFI)Cl₂], and violet for [Co(CFX-CFI)Cl₂], reflectingvariations in their coordination environments. The melting points ranged from252°C to 278°C, with the mixed ligand complex demonstrating the highest thermal stability. Molar conductivity values varied, indicating different degrees of ionic dissociation, with the mixedligandcomplex showing the highest conductivity, suggesting a more dynamic coordination environment. Biological activities were evaluated through in vitro antibacterial and antifungal assays. The results demonstrated that cobalt(II)  complexes exhibited enhanced antimicrobial properties compared to the free ligands, with the mixed ligand complex  showing superior efficacy. These findings suggest that metal-ligand interactions significantly enhancethebiological activity of the  complexes. This research highlights the potential of cobalt (II)complexes of cefuroxime and cefixime as promising candidates for  developing new antimicrobial agents, emphasizing the importance of metal-ligand interactions in drugdesignand development.