STUDY OF KINETICS OF COPPER OXIDATION BY ELECTROLYSIS UNDER NON-STATIONARY CONDITIONS

А. Mamyrbekova, А. Mamyrbekova, M. Kassymova, A. Aitbayeva, O. N. Chechina
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引用次数: 5

Abstract

Data on the study of the kinetics and mechanism of copper electro-oxidation -reduction processes in alkaline and neutral solutions were obtained in this work. Patterns of the electrochemical oxidation of copper using alternating current were established. Based on the data of polarisation measurements kinetic parameters were calculated: the heterogeneous rate constant, the effective activation energy of copper electro-oxidation, which allow to establish the course of the metal oxidation process in alkaline and neutral environments and its characteristics. Potentiodynamic measurements in alkaline solutions at a copper anode indicate the formation of Cu2O, CuO и Cu(OH)2. Anodic dissolution of copper in neutral salt solutions includes two main stages: the formation of Cu(I) and Cu(II) ions. It was found that the product of oxidation at high potentials is the Cu(II) ion. The nature of the anion electrolyte affects the rate of copper anodic oxidation, while the process occurs more efficiently in solutions of sulfate and sodium chloride and is accompanied by significant polarisation. Based on the study of kinetics the possibility of obtaining powders of metal oxide was shown, which further allowed to determine the parameters of the electrolysis process in non-stationary conditions in order to obtain highly dispersed materials based on copper oxides with specific physico-chemical properties.
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非稳态条件下铜电解氧化动力学研究
本文对铜在碱性和中性溶液中电氧化还原过程的动力学和机理进行了研究。建立了铜在交流电流下的电化学氧化模式。根据极化测量数据,计算了铜电氧化的动力学参数:非均相速率常数和有效活化能,从而建立了金属在碱性和中性环境下的氧化过程及其特征。在铜阳极的碱性溶液中,电位测量表明Cu2O, CuO * Cu(OH)2的形成。铜在中性盐溶液中的阳极溶解主要包括两个阶段:Cu(I)和Cu(II)离子的形成。结果表明,高电位氧化产物为Cu(II)离子。阴离子电解质的性质影响铜阳极氧化的速率,而该过程在硫酸盐和氯化钠溶液中更有效地发生,并伴有明显的极化。在动力学研究的基础上,提出了获得金属氧化物粉末的可能性,从而进一步确定了非稳态条件下电解过程的参数,以获得具有特定物理化学性质的高度分散的铜氧化物材料。
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