Characterization of Ni(II) and Cd(II) Metal Complexes using Schiff Base Ligand derived from 2-Thiophenecarboxyldehyde and 2 Aminothiophenol

Umar Dalha, A. Ahmad, S. Yahaya, I. U. Kutama
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引用次数: 1

Abstract

Schiff base ligand derived from condensation of 2-aminothiophenol and 2‑thiophenecarboxyldehyde was synthesized and used for the preparation of Ni(II) and Cd(II) complexes. The synthesized ligand and complexes were analyzed by decomposition temperature, solubility, magnetic susceptibility, molar conductance and infrared spectra. The decomposition temperatures of the complexes are 212 and 221°C. Molar conductance values are 16.12 and 12.60 ohm-1cm2mol-1 respectively. New bands appeared in the IR spectra of the complexes in the range of 519 - 475 cm-1 and 462 - 448 cm-1 which indicate υ (M - N) and υ (M - S) vibrations respectively. Magnetic susceptibility measurement indicated that Ni (II) complex is paramagnetic whileCd(II) complex is diamagnetic. The solubility test revealed that all complexes and ligand are soluble in DMSO. The analytical data show the formation of 2:1 metal to ligand ratio for all complexes and suggested the formula [ML2].nH2O. The ligand and metal chelates have been studied for microbial activity using well diffusion method against selected bacteria and fungi. The results signify that Ni(II) and Cd(II) metal complexes inhibit more compared with Schiff base ligand against the same test organisms.
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用2-噻吩乙二醛和2-氨基噻吩衍生的希夫碱配体表征Ni(II)和Cd(II)金属配合物
合成了由2-氨基噻吩和2-噻吩乙二醛缩合而成的席夫碱配体,并将其用于制备Ni(II)和Cd(II)配合物。通过分解温度、溶解度、磁化率、摩尔电导和红外光谱对合成的配体和配合物进行了分析。配合物的分解温度分别为212℃和221℃。摩尔电导值分别为16.12和12.60欧姆-1cm2mol-1。在519 ~ 475 cm-1和462 ~ 448 cm-1的红外光谱中出现了新的波段,分别表示υ (M - N)和υ (M - S)振动。磁化率测定表明,Ni (II)配合物具有顺磁性,而ecd (II)配合物具有抗磁性。溶解度测试表明,所有配合物和配体均可溶于DMSO。分析数据表明,所有配合物的金属与配体的比例均为2:1,并提出了公式[ML2]. nh2o。用孔扩散法研究了配体和金属螯合物对选定细菌和真菌的微生物活性。结果表明,与席夫碱配体相比,Ni(II)和Cd(II)金属配合物对相同的测试生物具有更强的抑制作用。
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