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    Discrete versus polymeric structures of coordination compounds of copper (II) with (pyridin-2-yl)methylenenicotinohydrazide and a library of dicarboxylic acids
    (ELSEVIER, 05.10.2024) Benito, Monica; Mahmoudi, Ghodrat; Molins, Elies; Zangrando, Ennio; Gargari, Masoumeh Servati; Frontera, Antonio; Safin, Damir A.
    A series of copper(II) discrete and polymeric coordination compounds, namely [{CuL(H2O)}(2)(fum)] (1), [{CuL(H2O)}(2)(mes)] (2), [Cu2L2(glu)](n)2n(H2O) (32n(H2O)) and [Cu3L2(adi)(2)](n) (4) were fabricated from (pyridin-2-yl)methylenenicotinohydrazide (HL) and a library of dicarboxylic acids, namely fumaric acid (H(2)fum), mesaconic acid (H(2)mes), glutaric acid (H(2)glu) and adipic acid (H(2)adi), using evaporative crystallization, grinding and slurry synthesis methods. The obtained coordination compounds have been fully characterized by single crystal X-ray diffraction revealing different types of complexes depending on the linker length, viz. from dinuclear complexes for the shorter linkers (fumaric and mesaconic acids) to 1D and 2D coordination polymers for longer glutaric and adipic acids. Thermal stability and spectroscopic features (FTIR and diffuse reflectance) of complexes were also studied. For the nonpolymeric compounds 1 and 2, the supramolecular assemblies driven by a combination of antiparallel pi-stacking and hydrogen bonding interactions have been studied and compared using DFT calculations, MEP surface analysis and a combination of QTAIM and NCIplot computational tools.
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    Supramolecular assemblies of Zn(II) complex based on dithiolate-amine binary ligands: Synthesis, crystal structure, Hirshfeld surface, DFT, molecular docking, and anticancer studies
    (Elsevier, 2024) Bhattacharjee, Tirtha; Nath, Sourav; Baildya, Nabajyoti; Das, Alakesh; Pathak, Surajit; Molins, Elies; Mahmoudi, Ghodrat; Verma, Akalesh Kumar; Borah, Pranab; Adhikari, Suman
    In this article, synthesis of the novel zinc(II) complex [Zn(tren)(i-mnt)] from diethylenetriamine (tren) and 1,1dicyano-2,2-ethylenedithiolate di-potassium salt (K2i-mnt) has been presented and characterized by spectroscopic methods. The trigonal bipyramidal geometry of [Zn(tren)(i-mnt)] in solid state has been confirmed by Xray diffraction analysis where stacked assembly of parallel chains interlinked by N-H & ctdot;S, N-H & ctdot;N, and C-H & ctdot;N type hydrogen bonds observed in 3D supramolecular packing. Hirshfeld Surface (HS) optimizations show prominent N & ctdot;H/H & ctdot;N (32%), S & ctdot;H/H & ctdot;S (21%), and C & ctdot;H/H & ctdot;C (18.5%) interactions that well corroborate with X-ray data. Moreover, Density Functional Theory (DFT) at B3LYP/6-31 g(d) and LMKLL/DZDP basis sets have been used to ascertain geometry and long-range interactions in the complex. In addition, DNA-binding analysis has been assessed by inspecting its binding capability to calf-thymus DNA (CT DNA) and cytotoxic effects of the complex, and K2i-mnt were investigated against Dalton's Lymphoma (DL) malignant cancer cells to assess their anticancer activity. The molecular docking study shows that the complex has a better binding affinity for 3DK8 (Protein Data Bank ID), leading to a higher inhibition constant and interactions.
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    Versatile copper(ii) discrete and polymeric coordination compounds with (pyridine-2-yl)methylenenicotinohydrazide and azelaic acid
    (Royal society of chemistry, 2024) Benito, Mónica; Mahmoudi, Ghodrat; Molins, Elies; Zangrando, Ennio; Servati Gargari, Masoumeh; Gomila, Rosa M.; Frontera, Antonio; Safin, Damir A.
    In this contribution, a series of copper(ii) discrete and polymeric coordination compounds, namely [Cu3L2(aze)2]nnH2O (1nH2O), [CuL2]H2O (2H2O) and [CuL(H2O)(Haze)]H2O (3H2O) were fabricated from (pyridin-2-yl)methylenenicotinohydrazide (HL) and azelaic acid (H2aze), using evaporative crystallization, grinding and slurry synthesis methods. The solvent crystallization method produced a crystalline precipitate of complex 1nH2O. The filtrate allowed the production of crystals of complex 3H2O. The grinding synthetic method gave rise to a mixture of complexes 1nH2O, 2H2O and an undetermined phase. Results of the slurry synthetic approach highly depend on the stirring time. The obtained coordination compounds have been fully characterized by single crystal X-ray diffraction revealing different structures of complexes, viz. from mononuclear homo- and heteroleptic complexes (2 and 3) to a 1D heteroleptic coordination polymer (1). DFT calculations on non-polymeric complexes were conducted to evaluate the hydrogen-bonding and pi-stacking interactions that play a critical role in the solid-state structures of complexes 2 and 3. Additionally, the impact of co-crystallized water molecules, which enhance the pi-stacking interactions, was analyzed using energy decomposition analysis.