丁醇对铜在磷酸溶液中阳极行为影响的研究

IF 1 Q4 CHEMISTRY, MULTIDISCIPLINARY
Darja Sil'chenko, G. Reznichenko, O. Maksimenko, H. Pancheva, E. Mykhailova, O. Pylypenko
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引用次数: 0

摘要

研究了浸在磷酸丁醇电解质中的铜电极的阳极行为。电极的极化依赖性使我们能够检测到与铜的被动和活跃状态相对应的部分,我们还建立了铜溶解和氧释放过程联合行为的区域。还确定了丁醇有助于在阳极电位的整个区域电流密度的突然下降。丁醇的加入使磷酸溶液中极化依赖性的电流振荡消失。显然,电流密度的降低是由于丁醇在铜表面的吸附及其参与钝化膜的形成。在磷酸丁醇电解质中,铜钝化的具体特征是在C4H9OН:H3PO4 =1:3的比例下,出现明显的电流峰,该电流峰将主动和被动状态区分开。随着醇酸比的增大,峰逐渐减小。丁醇的加入对与起始氧释放相对应的电位值没有决定性影响。铜溶解的电流效率值取决于阳极电流密度ja和电解质成分。ja的增加会导致电流效率值的降低。增加С4Н9ОН的内容也有类似的作用。在ja= 0.5-2 А∙dm-2时观察到最大的电流效率值,对应于铜的活性状态。铜溶解速率的依赖关系使我们能够确定,当电流密度达到ja=20 А∙dm-2时, 也随着电流密度的增加而增加。铜的处理质量取决于电流密度和电解质成分。C4H9OН:H3PO4=2:1的溶液不能提供高质量的处理;表面不光滑,有磨痕。当电解液的比例为C4H9OН:H3PO4 =1:2或更低时,电解液得到了高质量的处理。在这种溶液中进行电化学抛光,使铜表面光滑,浮雕光滑,无抛光痕迹。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Studying the Effect of Butanol on the Anode Behavior of Copper in Phosphoric Acid Solutions
The anode behavior of the copper electrode immersed in butanol phosphate electrolytes has been studied. The polarization dependences of the electrode allowed us to detect the sections that correspond to the passive and active states of copper and we also established the zone of the combined behavior of the processes of the copper dissolution and oxygen release. It was also established that a butyl alcohol contributes to an abrupt decrease in current densities in the entire region of anode potentials. The addition of butanol conditions the disappearance of current oscillations that can be seen on polarization dependences in phosphate solutions. Evidently, a decrease in the current densities is a consequence of the butanol adsorption on the copper surface and its participation in the formation of passive films. The specific features of the copper passivation in butanol phosphate electrolytes are characterized by the appearance of the explicit current peak that separates active and passive state zones at the ratio of C4H9OН:H3PO4 =1:3.As the alcohol-to-acid ratio increases, the peak gradually decreases. The addition of butanol has no determining influence on the potential value that corresponds to the started oxygen release. Currentefficiency values for the copper dissolution depend on the anode current density ja and the electrolyte composition. An increase in ja results in a decreased current efficiency value. An increase in the С4Н9ОН content has a similar action. Maximum current efficiency values are observed at ja=0.5–2 А∙dm-2, and they correspond to the active copper state. The dependences obtained for the copper dissolution rate allowed us to establish that υрalso increases with an increase in the current density up to ja=20 А∙dm-2. The copper treatment quality depends on the current density and the electrolyte composition. The solutions with the ratio of C4H9OН:H3PO4=2:1fail to provide a high quality treatment; the surface is not glossy and it has grinding traces. A high-quality treatment is observed in the electrolytes with the ratio of C4H9OН:H3PO4 =1:2 and lower. The electrochemical polishing in such solutions results in the glossy copper surface with the smoothed relief and it has no polishing traces.
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来源期刊
Chemistry & Chemical Technology
Chemistry & Chemical Technology CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
1.70
自引率
44.40%
发文量
60
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