Synthesis, structure and characterization of fac-[Re(CO)3]+ complexes derived from hydrazone Schiff bases: DFT–TDDFT investigation on electronic structures

The syntheses, structural and spectroscopic characterization of the complexes of general formula [ReL(CO)3Cl] bearing bifunctional hydrazone Schiff base ligand L are presented in this paper. The structure of one of the complexes is determined by X-ray crystallography. The solid-state structure of the compound is involved in a secondary interaction in lattice forming a supramolecular array. The gas phase geometry optimization and electronic calculation have been performed using density functional theory without any symmetry constraints. On the basis of structural and theoretical studies, ligand in the complexes is considered to be in the keto, not in enol form. Experimental ground state IR and NMR data set agree with those calculated by DFT calculations. The electronic spectra of the complexes are calculated by time dependent density functional theory (TDDFT) using conductor like polarizable continuum model (CPCM). The computed vertical excitation energies in solution are in good agreement with experimental one showing that the metal-to-ligand charge transfer transitions in visible region dominate over ligand based ILCT transition. The TDDFT excited states calculation of the electronic spectra in solution provides evidence towards luminescence spectra.

Graphical abstractThe syntheses, structural and spectroscopic characterization of the complexes of general formula [ReL(CO)3Cl] bearing bifunctional hydrazone Schiff base ligand L are presented in this paper. The solid-state structure of the compound is involved in a secondary interaction in lattice forming a supramolecular array. The complexes were characterized by different spectroscopic studies. The physiochemical properties of the complexes were studied using density functional theory.Figure optionsDownload full-size imageDownload as PowerPoint slide