Complexation of Copper(II) with Humic Acids Studied by Ultrasound Spectrometry

M. Klučáková
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引用次数: 9

Abstract

Copper biogeochemistry is controlled by bonding to natural organic matter. The soluble forms of bonded copper can be more biologically active due to the higher migration in environmental systems and instability of some copper-humic complexes. In this work, the interactions of copper(II) ions with humic acids are studied by means of high-resolution ultrasound spectrometry. It was found that the stoichiometry of the formed complexes is strongly influenced by the organization of humic acid in solution and by the final pH value in equilibrium. Although the ratio between the added copper and humic acids in all used concentrations was constant and the initial pH value was neutral, we observed significant differences between the individual systems. The highest binding ability was determined for a humic content of 0.5 g·dm−3. More diluted and more concentrated systems were able to bind lower amounts of copper. The implemented method is very sensitive and can be utilized not only for monitoring copper binding but also as an indicator of conformational changes of humic acid in solutions with varying concentration.
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超声光谱法研究铜(II)与腐植酸的络合作用
铜的生物地球化学受控于与天然有机质的结合。由于铜-腐殖质络合物在环境系统中的高迁移性和不稳定性,结合铜的可溶性形式具有更高的生物活性。本文采用高分辨率超声光谱法研究了铜(II)离子与腐植酸的相互作用。研究发现,形成的络合物的化学计量量受腐植酸在溶液中的组织和最终平衡pH值的强烈影响。虽然在所有使用浓度下,添加铜和腐植酸的比例是恒定的,初始pH值是中性的,但我们观察到各个系统之间存在显著差异。腐殖质含量为0.5 g·dm−3时,结合能力最强。更稀释和更浓缩的系统能够结合更少的铜。所实现的方法灵敏度高,不仅可以监测铜的结合,而且可以作为腐植酸在不同浓度溶液中构象变化的指标。
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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