Physicochemical investigation of anodic processes involved in silver electrowinning in refining technology

During silver electrowinning in refining technology, irrespectively of the nature of electrolyte and anode material, an anode deposit is formed due to oxidation of singly charged silver ions to higher degrees of oxidation (+2 and +3) under polarization. Absorption spectra of Ag(II) have been obtaine...

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Bibliographic Details
Published in:Russian journal of inorganic chemistry 2013-04, Vol.58 (4), p.427-431
Main Authors: Lebed’, A. B., Zaikov, Yu. P., Potapov, A. M., Shpoltakova, I. A., Mal’tsev, G. I.
Format: Article
Language:English
Subjects:
Anodes
Anodic polarization
Anodizing
Chemistry
Chemistry and Materials Science
Deposits
Inorganic Chemistry
Nitric acid
Oxidation
Physical Methods of Investigation
Refining
Silver
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Summary:During silver electrowinning in refining technology, irrespectively of the nature of electrolyte and anode material, an anode deposit is formed due to oxidation of singly charged silver ions to higher degrees of oxidation (+2 and +3) under polarization. Absorption spectra of Ag(II) have been obtained in solutions with various concentrations of silver ions and nitric acid using anodic polarization in combination with electronic absorption spectroscopy; silver ions of high oxidation degrees were found to be unstable in solutions. At anode potentials φ a ≥ 1.15–1.22 V, Ag(I) ions in liquid phase are oxidized to Ag(II), which paint the anolyte; their content depends on silver and nitric acid concentrations in the electrolyte. The deposit crystallizes on anode at potential φ a ≈ 1.5 V. Chemical analysis, X-ray powder diffraction, and a thermogravimetric study of the anode deposit have made it possible to identify its initial composition as Ag 7 O 8 NO 3 . The deposit composition varies in time as a result of reduction of highly oxidized silver.
ISSN:0036-0236
1531-8613
DOI:10.1134/S0036023613040098