<p>In this study, the ONNO type Schiff base ligand N, N’-bis(2-hydroxyphenylidene)-1,3-propanediamine (LH<sub>2</sub>) was reduced and converted into a tetradentate phenolic amine ligand, N, N′-bis(2-hydroxybenzyl)-1,3-diaminopropane (L<sup>H</sup>H<sub>2</sub>). First, a mononuclear [NiL<sup>H</sup>Cl(DMF)]<sub>2</sub>(DMF) complex <b>(I)</b> was obtained with the reduced ligand in dimethylformamide (DMF). CoCl<sub>2</sub> was then added to the complex <b>I</b> to give the heterodinuclear [NiL<sup>H</sup>CoCl<sub>2</sub>(DMF)<sub>2</sub>] complex <b>(II)</b>. The complexes were characterized by elemental analysis, Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), and single-crystal X-ray diffraction (XRD). The XRD analysis of complex <b>I</b> revealed that one phenolic oxygen persisted in its coordinated phenol form, while the charge of Ni(II) was observed to be neutralized by a chloride ion and a phenolate ion. The Ni(II) center ion in the complex exhibited octahedral coordination, being surrounded by two phenolic oxygens, two aminic nitrogens, an oxygen from a DMF molecule, and a chloride ion. In complex <b>II</b>, the Ni(II) ion was coordinated by two phenolic oxygens, two aminic nitrogen, and two DMF oxygens. The Co(II) ion was found to have a tetrahedral coordination sphere with two phenolate oxygens and two chloride ions. Thermogravimetric analysis demonstrated distinct thermal behaviors for mononuclear and heterodinuclear complexes. The mononuclear complex exhibited stability up to 210&#xa0;°C and an exothermic reaction at 510&#xa0;°C in an oxygen atmosphere, resembling energetic materials. The heterodinuclear complex showed higher thermal stability and a distinct decomposition pathway, influenced by Co(II) coordination. These findings highlight the significance of heterometallic coordination in thermal properties and controlled decomposition applications.</p>

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Thermal stability and crystallographic characterization of mononuclear Ni(II) and heterodinuclear Ni(II)-Co(II) complexes of the reduced ONNO type Schiff base

  • Nurcan Acar,
  • Çiğdem Ay,
  • Nurdane Yılmaz,
  • Leyla Tatar Yıldırım,
  • Emine Kübra İnal,
  • Orhan Atakol,
  • Sinecan İrem Bozkuş

摘要

In this study, the ONNO type Schiff base ligand N, N’-bis(2-hydroxyphenylidene)-1,3-propanediamine (LH2) was reduced and converted into a tetradentate phenolic amine ligand, N, N′-bis(2-hydroxybenzyl)-1,3-diaminopropane (LHH2). First, a mononuclear [NiLHCl(DMF)]2(DMF) complex (I) was obtained with the reduced ligand in dimethylformamide (DMF). CoCl2 was then added to the complex I to give the heterodinuclear [NiLHCoCl2(DMF)2] complex (II). The complexes were characterized by elemental analysis, Fourier transform infrared spectroscopy (FTIR), thermogravimetric analysis (TGA), and single-crystal X-ray diffraction (XRD). The XRD analysis of complex I revealed that one phenolic oxygen persisted in its coordinated phenol form, while the charge of Ni(II) was observed to be neutralized by a chloride ion and a phenolate ion. The Ni(II) center ion in the complex exhibited octahedral coordination, being surrounded by two phenolic oxygens, two aminic nitrogens, an oxygen from a DMF molecule, and a chloride ion. In complex II, the Ni(II) ion was coordinated by two phenolic oxygens, two aminic nitrogen, and two DMF oxygens. The Co(II) ion was found to have a tetrahedral coordination sphere with two phenolate oxygens and two chloride ions. Thermogravimetric analysis demonstrated distinct thermal behaviors for mononuclear and heterodinuclear complexes. The mononuclear complex exhibited stability up to 210 °C and an exothermic reaction at 510 °C in an oxygen atmosphere, resembling energetic materials. The heterodinuclear complex showed higher thermal stability and a distinct decomposition pathway, influenced by Co(II) coordination. These findings highlight the significance of heterometallic coordination in thermal properties and controlled decomposition applications.