Ben Smida Nourhene, Othmani Abdelhak, Abderrahim Raoudha
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引用次数: 0
摘要
在这项工作中,我们利用改性聚苯乙烯(含亚胺醚的二乙酰化聚苯乙烯(DIPS-N-Ac-Imi))作为去除废水中镍(Ni2+)的潜在有效吸附剂。该产品用于在常温下吸附废水中的镍(II)。使用红外光谱(FT-IR)、热重仪和 X 射线衍射(XRD)对含亚胺醚的二乙酰化聚苯乙烯 DIPS-N-Ac-Imi 和 DIPS-N-Ac-Imi/Ni2+ 进行了表征。随后,通过原子吸收光谱测定了 DIPS-N-Ac-Imi/Ni2+ 的吸附百分比。利用阻抗光谱对 DIPS-N-Ac-Imi/Ni2+ 进行了电学研究,发现了一种受激热传导机制。根据电导率分析,从阿伦尼乌斯图推断出活化能为 Ea = 1.07 eV,这表明 DIPS-N-Ac-Imi/Ni2+ 是一种质子型半导体。
Preparation of inexpensive modified polystyrene with adipoyl chloride and N-benzimidazole iminoesther for the removal of Ni2+ and study of the impedance and conductivity of the obtained complex
We used, in this work, a potentially effective adsorbent for removing nickel (Ni2+) from wastewater, employing modified polystyrene; the di-acylated polystyrene with iminoether (DIPS-N-Ac-Imi). The product was utilized for the adsorption of Ni(II) from waste water at ambient temperature. The di-acylated polystyrene with iminoether DIPS-N-Ac-Imi and DIPS-N-Ac-Imi/Ni2+ were characterized using infrared spectroscopy (FT-IR), thermogravimetry, and X-ray diffraction (XRD). Subsequently, the percentage of adsorption of DIPS-N-Ac-Imi/Ni2+ was determined via atomic absorption spectroscopy. An electrical study of DIPS-N-Ac-Imi/Ni2+ was performed using Impedance Spectroscopy, revealing a stimulated thermal conduction mechanism. Based on conductivity analyses, the activation energy was deduced from the Arrhenius diagram and corresponded to Ea = 1.07 eV, which suggests that DIPS-N-Ac-Imi/Ni2+ is a proton-type semiconductor.
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