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Full-Text Articles in Physical Sciences and Mathematics
Green Dehydrogenation Of Dimethylamine Borane Catalyzed By Cheaply Copper(0) Nanocatalysts Without Any Stabilizer At Nearly Room Temperature, Ali̇ Özdemi̇r, Si̇bel Duman
Green Dehydrogenation Of Dimethylamine Borane Catalyzed By Cheaply Copper(0) Nanocatalysts Without Any Stabilizer At Nearly Room Temperature, Ali̇ Özdemi̇r, Si̇bel Duman
Turkish Journal of Chemistry
In this work, the findings of the work on the green dehydrogenation behavior of molten dimethylamine borane (DMAB) catalyzed by the precatalyst copper(II) acetylacetonate (Cu(acac)2) in solvent-free medium (green) at near room temperature (nRT, 30.0+0.1°C) were reported. Herein, a complete study has been presented, which includes the following steps: (i) synthesis and catalytic activity of Cu(0) NCats in solvent-free medium, (ii) determination of activation energy for Cu(0) NCats catalyzed green dehydrogenation of DMAB, (iii) demonstration of catalytic lifetime of Cu(0) NCats, (iv) test of isolability and reusability of Cu(0) NCats, (v) poisoning experiments using carbon disulfide on a per-active-copper-atom basis, …
Synthesis, Characterization, And Biological Evaluation Of New Copper Complexes Ofnaphthyl Pyrazole Ligands, Melek Hinis, Kuldip Singh, Demet Erdönmez, Ayfer Menteş
Synthesis, Characterization, And Biological Evaluation Of New Copper Complexes Ofnaphthyl Pyrazole Ligands, Melek Hinis, Kuldip Singh, Demet Erdönmez, Ayfer Menteş
Turkish Journal of Chemistry
Two naphthalene pyrazole ligands were synthesized using KOH/DMSO and Cu catalyst and characterized with FT-IR, ESIMS, 1H, and 13C NMR spectroscopies. The crystal structures of 1-(2-methylnaphthalen-1-yl)-1H-pyrazole (MeNap-Pz) ligand have been determined with X-ray crystal structure analysis. Reaction of the ligands with Cu(NO3)2x3.5H2O gave two new complexes and characterized with magnetic susceptibility, molar conductance, FT-IR, LCMS-MS, ICP-OES, NMR, thermogravimetric analysis, and ESR spectra. The spectral data of the ligands are coordinated to the metal ion through the nitrogen atoms of the pyrazole ring. Consequently, it has been determined that [Cu(MeNap-Pz)2 (NO3)]NO3.2H2O complex showed square planar geometry and [Cu(NapMe-Pz)2(NO3)2].H2O complex showed octahedral …
Vortex-Assisted Magnetic Solid Phase Extraction Of Pb And Cu In Some Herb Samples On Magnetic Multiwalled Carbon Nanotubes, Di̇lek Kamaş, Aslihan Karatepe, Mustafa Soylak
Vortex-Assisted Magnetic Solid Phase Extraction Of Pb And Cu In Some Herb Samples On Magnetic Multiwalled Carbon Nanotubes, Di̇lek Kamaş, Aslihan Karatepe, Mustafa Soylak
Turkish Journal of Chemistry
This study is the development of a new solid phase extraction method based on using magnetic multiwalled carbon nanotubes impregnated with 1-(2-pyridylazo)2-naphthol (PAN) for separation, preconcentration, and flame atomic absorption spectrometric determination of Pb(II) and Cu(II). Optimization of the method was done by investigating pH effect, amount of magnetic multiwalled carbon nanotubes impregnated with PAN, eluent type and volume, matrix effects, and volume of the sample. The optimum adsorbent amount was found to be 75 mg and the optimum pH value was found as 5.5. The detection limits were 16.6 μg L-1 for Pb(II) and 18.9 μg L-1 for Cu(II). …
A Fluorescent Sensor-Based Tripodal-Bodipy For Cu (Ii) Ions: Bio-Imaging On Cells, Ahmed Nuri̇ Kurşunlu, Mustafa Özmen, Ersi̇n Güler
A Fluorescent Sensor-Based Tripodal-Bodipy For Cu (Ii) Ions: Bio-Imaging On Cells, Ahmed Nuri̇ Kurşunlu, Mustafa Özmen, Ersi̇n Güler
Turkish Journal of Chemistry
A general synthetic method was improved to synthesize a chemosensor based on a tripodal Bodipy (t-BODIPY) structure. The product and its intermediate products were successfully prepared and fully characterized. The metal ion sensing performance of the tripodal compound was evaluated by UV/Vis and fluorescence spectroscopies. According to the obtained data, t-BODIPY is a selective and sensitive fluorescence probe for detection of Cu2+ ions in the presence and in the absence of competing ions. This chemosensor presents relatively a low detection limit of 5.4 x10-7 M for Cu2+. Bio-imaging studies on living yeast cells suggest that t-BODIPY has some advantages over …