One of the most difficult tasks in modern medical societies is the process of identifying a cure for many infectious diseases caused by drug-resistant microbes. Therefore, it has become necessary to discover new compounds that work in this regard. The currently prepared Schiff base, derived from thiazole, has a biological activity against bacteria and biofilms and its activity increases when it is associated with copper, zinc and platinum ions and forms metal complexes. This study highlights the synthesis and evaluation of novel biological compounds as inhibitors of bacterial growth and biofilms. A three newly complexes are resulting from the reaction of a new Schiff base ligand (LC) with metal ions (Zn, Cu, Pt). The new ligand (LC) was prepared from the reaction of precursor (P) and benzenecarbaldehyde. The prepared compounds were characterized by 1H&13CNMR, FTIR, UV-Vis, Magnetic susceptibility, CHNS and Molar conductivity. It was determined that the anti-bacterial activity of the newly synthesized Lc and (Cu-Lc) was mightily significant towards more antibiotic-resistant bacteria and had low (MIC) values. Like that, anti-biofilm inhibitory of the same compounds showed 100% of clinical isolates of P. aeruginosa and S. aureus in 16 and 32 mg/ml respectively, whereas (Zn-Lc) were inhibited 100% in 4 mg/ml. On the other hand (Pt-Lc) inhibited 100 % in 2 mg/ ml. Good yield was obtained from the synthesis of new compounds from the starting material. They can be potential candidates as inhibitors of bacteria and biofilms.
