Synthesis, characterization, spectral studies and evaluation of noncovalent interactions in co-crystal of μ-oxobridged polymeric copper(II) complex derived from pyrazolone by theoretical studies

Abstract

The new co-crystal of μ-oxobridged polymeric copper(II) complex {[0.714(9) CuII2(HL-CH2OH)2].[0.286(9) CuII2(HL-CHO2H)2]}n with Schiff base ligand derived from pyrazolone, (HL = 4-[(2-hydroxy-3-methoxybenzylidene)amino-1,5-dimethyl-2-phenyl-1H-pyrazol-3-one), was synthesized and characterized by spectral and analytical techniques. The optimal and unexpected quality structures of the copper (II) polymer complex were determined using X-ray. Crystals are monoclinic, a = 7.8472(2), b = 12.5860(3), c = 17.0842(3) Å, β = 97.140(2)° and space group P21/c. The complexes are 4 + 1 coordinated, with four standard coordination distances in a square-planar geometry and a fifth, longer, secondary coordination distance at the square pyramid's apex. The basic complexes have a Ci-symmetrical Cu2L2 composition and extend into polymeric chains along the x crystallographic axis due to the longer contact. The electrochemical properties of complex in DMSO displayed the electronic effects on the groups on redox potential. The density functional theory by B3LYP method with (6-311 G) basis set was used to optimize the molecular geometry of the copper complex. Following the optimized DFT, FT-IR spectroscopy was used to determine geometric characteristics such as bond length and bond angle, which were then compared to experimental data. The intermolecular interactions were characterized using X-ray crystal structure analysis, HS (Hirshfeld surface analysis) and FPs (fingerprint diagrams). In addition, QTAIM (Quantum Theory of Atoms in Molecules) analysis was studied to determine the type of bonds and the energies of the metal-ligand bond. The adsorption process of complexes (1) and (2) in the aqueous phase on graphene oxide (GO) was calculated by the Monte Carlo adsorption locator. The results showed complex (2) had a high binding efficiency on GO compared with complex (1). The molecular docking study was also carried out for the copper complex to find its binding affinity to protein B-cell lymphorna (BCL-2, PDB ID: 4LXD).