Self-assembly, crystal structure, computational studies, optical investigation, magnetic and biological properties of novel compounds based on methoxyphenyl piperazinium ligand

Two novel methoxyphenyl-based piperazine compounds have been investigated. The crystal structures of [C11H18N2O][Co(SCN)(4)] (1) and [(C11H18N2O)(4)]Cl-8 center dot 7H(2)O (2) have been determined using single crystal X-ray crystallography. However, (1) crystallizes in an orthorhombic system with the non-centrosymmetric space group P 212121 with the following lattice parameters: a = 8.4637(2) angstrom, b = 14.5848 (5) angstrom, c = 17.1847 (5) angstrom with V = 2121.3 (1) angstrom(3) and Z = 4, otherwise (2) crystallizes in monoclinic system with P 2(1)/c space group and the following lattice parameters: a = 7.2551 (2) angstrom, b = 9.0523 (4) angstrom, c = 22.3575 (8) angstrom, beta = 95.998 (3). with V = 1460.30 (9) angstrom(3) and Z = 1. Different interactions packed the system through N-H.S hydrogen bonds for (1). The organic entities are grouped into dimers for (2) through weak interactions and N-H ... Cl, N-H ... O, and OH ... Cl. The robustness of the crystals is also enhanced by C-H. p of the piperazine ring. Infrared spectrums were recorded to reveal the vibrational modes of the compounds, and to highlight the optical behavior, UV-visible analysis has been carried out. Thermal analysis was carried out to highlight the thermal stability of complexes. In addition, the antibacterial assets were investigated against different bacteria. The C-13 Nuclear Magnetic Resonance was carried out to highlight the presence of primary reagents in the final product. Intermolecular interaction and stabilization of dimer complexes in the crystal packing are explored using Hirshfeld surface analysis to highlight the role of molecular interaction in the crystal packing. The more detailed quantum computation from crystallographic reported self-assembled dimer complexes occurred for comprehensive structure elucidation and showed good findings. The nature of dimer complexes has been assessed by strong and weak intermolecular interactions which were examined by NCI plots and analyzed by QTAIM calculation. Then, the thermal analysis was used to confirm the crystal thermal stability, Furthermore, biological behavior was performed for the compounds against different antibacterial targets to identify to which target the compounds show the best affinity. and finally, the magnetic properties were studied to show the spin coupling for the metal complex. Magnetic measurements of the novel cobalt compound show.T values that are typical for Co(II) cations with S = 3/2.

Automated summary

Two novel methoxyphenyl-based piperazine compounds were studied and their crystal structures were determined by single crystal X-ray crystallography. The compounds exhibited different crystal systems and lattice parameters, and were stabilized by different intermolecular interactions. Comprehensive studies were conducted on the compounds, including infrared spectroscopy, UV-visible analysis, thermal analysis, antibacterial activity testing, and magnetic measurements, revealing their structures, optical behavior, thermal stability, antibacterial activity, and magnetic properties.