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The title ligand (L^”_x), methyl 2-((4-cyanophenyl)(hydroxy)methyl)acrylate was synthesized following the Morita-Baylis-Hillman reaction scheme. Spectroscopic techniques such as: UV- Visible, FT-IR, ESI-MS, and ¹H NMR helped in characterization of the L^”_x. Complexes of Cr³⁺, Co³⁺, Ni²⁺, Mn²⁺, Cu²⁺ with L^”_x were prepared and characterized by UV- Visible, FT-IR and powder-XRD. FTIR spectrum of the L^”_x generated through DFT B3LYP method and 6-311++ G (d,p) basis set was found in good agreement with experimental spectrum. Additionally, the semi-empirical PM6 method optimization helped propose the most suitable geometries of the complexes with Cr³⁺, Co³⁺ possessing octahedral, Ni²⁺ square planner, Mn²⁺ and Cu²⁺ tetrahedral geometries. Powder-XRD patterns of the complexes have revealed cubic crystal class for Cr³⁺ and Co³⁺, whereas hexagonal, orthorhombic, and monoclinic for Ni²⁺, Mn^2+, and Cu²⁺ complexes were observed, respectively. In addition, the nano-particle size was found in the range of 8.2560–4.5316 nm for complexes. Antibacterial activity against <i>S. aureus</i>, <i>E. coli, B. pumilis</i> and <i>S. typhi</i> confirmed a substantially high potential, as endorsed by their Molecular docking studies, of Ni²⁺ and Cu²⁺ complexes against each bacterial strain. Moreover, all compounds exhibited positive antioxidant activities, but have no antifungal potential except L^”_x. The current study demonstrates the usefulness of these novel transition metal complexes as possible potent antibacterial and antioxidant agents.