DETERMINATION OF THE MECHANISM OF INTERACTION OF Cu2 +, Pb2 + METHOD OF FTIR SPECTROSCOPY IN THE MIDDLE REGION

Bulletin of the National Technical University "KhPI". Series: Chemistry, Chemical Technology and Ecology Pub Date : 2022-12-30 DOI:10.20998/2079-0821.2022.04

K. Rudneva

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Abstract

The object of the study is to determine the interaction of copper and lead ions in aqueous weakly acidic solutions. According to the analysis of modern scientific works, recently not enough attention is paid to the study of sorption properties of humates after regeneration, so for further use of humic acids as sorbents, including regenerated, it is important to obtain data on stoichiometric interaction of humic acids with various metals. In this work, humic acids were isolated from commercial potassium humate produced in China. Model solutions of copper (II) sulfate and lead (II) acetate were used in the research. The exact content of copper and lead for the final solutions prepared from model with subsequent regeneration of humate-metal complexes was determined by inductively coupled plasma atomic emission spectroscopy (ICP-AES). Regeneration was carried out by reducing the acidity by adding 1 n nitric acid. The spectra were recorded by FTIR spectroscopy in the middle region. Interpretation of the spectra of the starting humic acids, potassium humates, as well as copper and lead humates was carried out by adjusting the literature data. Studies of the structure of humic acids and humates of metals and by this method have shown the active involvement of carboxyl groups in the formation of humate-metal bonds. Humic acids after regeneration (reduction) contain carboxyl groups in the dimerized state, in contrast to freshly prepared humic acids. In lead humates, the above general nature of changes in the spectral pattern from humic acids to lead humates is repeated for copper humates, which can be explained in the general theory of FTIR spectroscopy by increasing the reduced mass of a group of atoms involved in oscillations due to significantly higher atomic mass of pigs. compared to copper. It was also found that sorption occurs as a result of stoichiometric reaction, due to which chelate complexes of copper and lead are formed by interaction with oxygen atoms in the carboxyl groups of humate molecules.

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红外光谱法测定Cu2 +、Pb2 +在中间区域的相互作用机理

研究的目的是确定铜和铅离子在弱酸性水溶液中的相互作用。根据现代科学文献的分析，目前对腐植酸再生后的吸附性能的研究还不够重视，因此，为了进一步利用腐植酸作为吸附剂，包括再生材料，获得腐植酸与各种金属的化学计量相互作用的数据是很重要的。从国内生产的商品腐植酸钾中分离出腐植酸。采用硫酸铜(II)和醋酸铅(II)模型溶液进行研究。用电感耦合等离子体原子发射光谱(ICP-AES)测定了模型制备的最终溶液中铜和铅的确切含量。通过加入1n硝酸降低酸性进行再生。在中间区域用FTIR光谱记录了光谱。通过对文献数据的调整，对起始腐植酸、腐植酸钾、腐植酸铜和腐植酸铅的光谱进行了解释。用这种方法对金属腐植酸和腐植酸的结构进行的研究表明，羧基积极参与了腐植酸-金属键的形成。与新鲜制备的腐植酸相比，再生(还原)后的腐植酸含有二聚态的羧基。在腐植酸铅中，上述从腐植酸到腐植酸铅的光谱模式变化的一般性质在腐植酸铜中重复出现，这可以在FTIR光谱的一般理论中解释为，由于猪的原子质量显著提高，导致参与振荡的一组原子的减少质量增加。与铜相比。还发现吸附是化学计量反应的结果，由于化学计量反应，铜和铅的螯合物是通过与腐植酸分子羧基上的氧原子相互作用形成的。

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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Bulletin of the National Technical University "KhPI". Series: Chemistry, Chemical Technology and Ecology

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