SYNTHESIS AND STUDY OF NANO-SIZED COMPLEX OF Fe(III) WITH ETHYLENEDIAMINEDISUCCINIC ACID

Ukrainian Chemistry Journal Pub Date : 2023-09-29 DOI:10.33609/2708-129x.89.08.2023.97-108

O. Trunova, Оeksandra Berezhnytska, O. Rohovtsov

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Abstract

In this work, the FeEDDSNP nanocomplex was synthesized by dissolution peptization of a freshly precipitated sol of iron hydroxide Fe(OH)3 in an aqueous solution of the racemic form of Н4EDDS. The complex was characterized by electron absorption spectroscopy and IR spectroscopy. It was shown that the structure of the nanocomplex is identical to the structure of the FeEDDS complex obtained using a two-stage technology. The position of the absorption maxima of iron nanoparticles practically does not change depending on the storage time at room temperature, which indicates the stability of the synthesized nanocomplex. The nanodispersed FeEDDSNP complex is more soluble in water (275 g/l) compared to the FeEDDS complex obtained by the classical method (150 g/l), which greatly facilitates its use as a biologically active compound. To determine the stability of the system depending on the pH, the electrokinetic potential was measured to select the optimal pH of the medium and concentrations to obtain stable dispersed systems. It is shown that at low pH (1.5–4.0) there is a drop in the electrokinetic potential, and when the pH increases, the

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铁(III)与乙二胺二苯甲酸的纳米尺寸复合物的合成与研究

在这项工作中，通过将氢氧化铁 Fe(OH)3 的新鲜沉淀溶液在外消旋体 Н4EDDS 的水溶液中溶解胨化，合成了 FeEDDSNP 纳米络合物。电子吸收光谱和红外光谱对该复合物进行了表征。结果表明，该纳米复合物的结构与采用两级技术获得的 FeEDDS 复合物的结构相同。铁纳米粒子吸收最大值的位置几乎不随室温下储存时间的变化而变化，这表明合成的纳米复合物是稳定的。与传统方法获得的 FeEDDS 复合物（150 克/升）相比，纳米分散的 FeEDDSNP 复合物在水中的溶解度更高（275 克/升），这极大地促进了其作为生物活性化合物的应用。为了确定体系的稳定性取决于 pH 值，对电动势进行了测量，以选择最佳的介质 pH 值和浓度，从而获得稳定的分散体系。结果表明，在 pH 值较低时（1.5-4.0），电动势会下降，而当 pH 值升高时，电动势会上升。

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Ukrainian Chemistry Journal

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