Investigation of the adsorption and ionization of oxygen by the method of triangular voltage pulses

Tarasevich, M. R.; Shumilova, N. A.; Burshtein, R. Kh.

doi:10.1007/BF01179559

Investigation of the adsorption and ionization of oxygen by the method of triangular voltage pulses

Report 1. Adsorption and desorption of oxygen on a silver electrode during its anode and cathode polarization

Published: January 1964

Volume 13, pages 14–20, (1964)
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Bulletin of the Academy of Sciences of the USSR, Division of chemical science Aims and scope

M. R. Tarasevich¹,
N. A. Shumilova¹ &
R. Kh. Burshtein¹

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Conclusions

1.
The anode and cathode behavior of silver in the potential range 0.05–2.0 V at a rate of potential change of 0.04–300 V/sec has been investigated by the method of triangular voltage pulses in a 1N KOH solution.
2.
The potential regions at which the adsorption of hydrogen and oxygen occurs have been established.
3.
The formation and reduction of the following oxides has been investigated by the method of triangular pulses: Ag₂O, AgO, and Ag₂O₃.

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Authors and Affiliations

Institute of Electrochemistry, Academy of Sciences, USSR
M. R. Tarasevich, N. A. Shumilova & R. Kh. Burshtein

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M. R. Tarasevich
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N. A. Shumilova
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R. Kh. Burshtein
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The article is published on the basis of a resolution of the Conference of Editors-in-Chief of the Journals of the Academy of Sciences USSR, July 12, 1962, as the dissertation work of M. R. Tarasevich.

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Tarasevich, M.R., Shumilova, N.A. & Burshtein, R.K. Investigation of the adsorption and ionization of oxygen by the method of triangular voltage pulses. Russ Chem Bull 13, 14–20 (1964). https://doi.org/10.1007/BF01179559

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Received: 14 April 1963
Issue Date: January 1964
DOI: https://doi.org/10.1007/BF01179559

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Investigation of the adsorption and ionization of oxygen by the method of triangular voltage pulses

Conclusions

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Investigation of the adsorption and ionization of oxygen by the method of triangular voltage pulses

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Anodic Overpotentials in the Electrolysis of Alumina

Double Current Maxima Formed under Linear Potential Sweep Conditions in Acetic Acid Solutions at pH < 2.5

Hydrogen Evolution Reaction on Nanostructures Electrodes—a Scenario on Stepped Silver Surfaces

Literature cited

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