Synthesis, characterization and NLO property of ruthenium(II) thiosemicarbazone complexes

K. Sampath, S. Krithika
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Abstract

Nonlinear optical (NLO) materials have attracted considerable attention with potential applications as optical switching, data storage and optoelectronic devices. Compared with inorganic counterparts, organic complexes owing to its structural flexibility are received growing interest. With this forefront investigations, we herein report synthesis of a set of ruthenium complexes containing Schiff base, ethoxy-methylthiosemicarbazone, and non Schiff base ligands with available metal precursors. The synthesized ligands and the ruthenium complexes were characterized by various analytical and spectrochemical techniques viz., FT-IR, UV-Vis, 1HNMR, 13CNMR and 31PNMR. All the physio-chemical and spectral techniques confirmed that the ruthenium atom is in +2 oxidation state and an octahedral geometry is proposed to all the complexes. The spectral techniques reveals that the ruthenium atom in the complexes coordinated to Schiff base ligand through Oxygen:Nitrogen:Sulphur (ONS) mode. Further, the nonlinear optical property of the compounds was investigated by kurtz-perry powder technique which through a light on the materialistic properties of the ruthenium complexes.Nonlinear optical (NLO) materials have attracted considerable attention with potential applications as optical switching, data storage and optoelectronic devices. Compared with inorganic counterparts, organic complexes owing to its structural flexibility are received growing interest. With this forefront investigations, we herein report synthesis of a set of ruthenium complexes containing Schiff base, ethoxy-methylthiosemicarbazone, and non Schiff base ligands with available metal precursors. The synthesized ligands and the ruthenium complexes were characterized by various analytical and spectrochemical techniques viz., FT-IR, UV-Vis, 1HNMR, 13CNMR and 31PNMR. All the physio-chemical and spectral techniques confirmed that the ruthenium atom is in +2 oxidation state and an octahedral geometry is proposed to all the complexes. The spectral techniques reveals that the ruthenium atom in the complexes coordinated to Schiff base ligand through Oxygen:Nitrogen:Sulphur (ONS) mode. Further, the nonlinear optical p...
钌(II)硫代氨基脲配合物的合成、表征及NLO性能
非线性光学材料在光开关、数据存储和光电子器件等方面具有广泛的应用前景。与无机配合物相比,有机配合物由于其结构的灵活性受到越来越多的关注。通过这些前沿研究,我们在此报道了一组含有席夫碱、乙氧基甲基硫代氨基脲和非席夫碱配体的钌配合物,这些配合物具有可用的金属前体。用FT-IR、UV-Vis、1HNMR、13CNMR和31PNMR等分析和光谱技术对合成的配体和钌配合物进行了表征。所有的理化和光谱技术都证实钌原子处于+2氧化态,并且所有配合物都是八面体结构。光谱技术表明配合物中的钌原子通过氧:氮:硫(ONS)模式与席夫碱配体配位。此外,利用kurtz-perry粉末技术研究了钌配合物的非线性光学性质。非线性光学材料在光开关、数据存储和光电子器件等方面具有广泛的应用前景。与无机配合物相比,有机配合物由于其结构的灵活性受到越来越多的关注。通过这些前沿研究,我们在此报道了一组含有席夫碱、乙氧基甲基硫代氨基脲和非席夫碱配体的钌配合物,这些配合物具有可用的金属前体。用FT-IR、UV-Vis、1HNMR、13CNMR和31PNMR等分析和光谱技术对合成的配体和钌配合物进行了表征。所有的理化和光谱技术都证实钌原子处于+2氧化态,并且所有配合物都是八面体结构。光谱技术表明配合物中的钌原子通过氧:氮:硫(ONS)模式与席夫碱配体配位。此外,非线性光学p…
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