Measurement of Complex Formation Process of Nickel (II) with Freshwater Fulvic Acids Using the Solubility Method

Fine Chemical Engineering Pub Date : 2021-07-12 DOI:10.37256/FCE.222021870

T. Makharadze, G. Makharadzé

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引用次数: 1

Abstract

The complex formation process between Ni(II) and fulvic acids has been studied through the solubility method at pH = 9.0. The old suspension of Ni(OH)2 is used as a solid phase. Fulvic acids are isolated from Paravani lake by the adsorption-chromatographic method. The activated charcoal is used as a sorbent. The concentration of fulvic acids in model solutions changes from 1.1 × 10-5 mol/L to 4.4 × 10-5 mol/L. The value of molar mass of fulvic acids at pH = 9.0 was taken into consideration for the calculation of molar concentrations of fulvic acids. Before adding the ligand the initial concentration of nickel was 3.8 × 10-6 mol/L. This article has shown that, during complex formation process every 0.25 part of an associate of fulvic acids (Mw = 7610), inculcates into nickel's inner coordination sphere as an integral ligand, so it may be assumed, that the average molecular weight of the associate of fulvic acids which takes part in complex formation process equals to 1903. This part of the associate of fulvic acids was conventionally called the "active associate". The average molecular weight of the "active associate" was used for determining the concentration of free ligand and average stability constant (1:1), which equals to β = 1.07 × 107 (lgβ = 7.03).

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用溶解度法测定淡水黄腐酸与镍(II)络合物形成过程

采用溶解度法研究了在pH = 9.0条件下，Ni(II)与黄腐酸之间络合物的形成过程。Ni(OH)2的旧悬浮液用作固相。采用吸附色谱法从帕拉瓦尼湖中分离黄腐酸。活性炭被用作吸附剂。模型溶液中黄腐酸的浓度从1.1 × 10-5 mol/L变化到4.4 × 10-5 mol/L。计算黄腐酸的摩尔浓度时，考虑了pH = 9.0时黄腐酸的摩尔质量。在加入配体之前，镍的初始浓度为3.8 × 10-6 mol/L。本文表明，在络合物形成过程中，每0.25份的黄腐酸缔合物(Mw = 7610)作为积分配体注入到镍的内配位球中，因此可以假设，参与络合物形成过程的黄腐酸缔合物的平均分子量为1903。黄腐酸的这部分缔合物通常被称为“活性缔合物”。用“活性缔合物”的平均分子量来确定游离配体的浓度和平均稳定常数(1:1)，即β = 1.07 × 107 (lgβ = 7.03)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fine Chemical Engineering

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