Dicobaloxime/organodicobaloximes bridged by different axial groups: synthesis, characterization, spectroscopy, and catalysisAhmet Kilic, Hamza Fırat, Emine Aytar, Mustafa Durgun, Aysegul Kutluay Baytak, Mehmet Aslanoglu, and Mahmut Ulusoy Department of Chemistry, Faculty of Arts and Sciences, Harran University, Şanlıurfa, Turkey
E-mail: kilica63@harran.edu.tr Abstract: In this study, the various ligands axially coordinated to two cobalt center bound to the N4-oxime core in 12 new dicobaloxime/organodicobaloxime (1–12) complexes have been synthesized and characterized by NMR (1H and 13C), UV–Visible, FT-IR, LC–MS, molar conductivity analysis, melting point, and magnetic susceptibility experiments with elemental analysis. These spectroscopic results indicate that the formation of new dicobaloxime/organodicobaloxime (1–12) complexes. The (C=N–OH) peaks disappeared in the 1H-NMR spectrum of dicobaloxime/organodicobaloxime (1–12) complexes, while new peaks were observed at range 20.18–18.33 ppm, indicating that the groups of ligands have been transformed to intramolecular H-bridge (O–H⋯O). The dicobaloxime (1–6) species give a better cyclic voltammogram as compared to its organodicobaloxime derivatives (7–12) due to cyclic voltammograms of the organodicobaloximes (7–12) were poor. This is possibly due to the enhanced σ donation by R groups in the organocobaloximes which are substantially stabilized. The organodicobaloxime (10) showed much better catalytic activity compared to the other cobaoxime complexes. Keywords: Co(III) complexes; Dicobaloxime; Organodicobaloxime; Cyclic voltammetry; Cyclic carbonates; CO2 fixation; Reaction parameters Full paper is available at www.springerlink.com. DOI: 10.1007/s11696-017-0165-0
Chemical Papers 71 (9) 1705–1720 (2017) |
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