Email this article 
The Action of Oxidizing Agents on Neptunium(VI) in Acid Solutions
- Authors: Shilov V.P1, Fedoseev A.M1
-
Affiliations:
- Frumkin Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences
- Issue: Vol 67, No 3 (2025)
- Pages: 195-198
- Section: Articles
- URL: https://journals.rcsi.science/0033-8311/article/view/355500
- DOI: https://doi.org/10.7868/S3034543X25030026
- ID: 355500
Cite item
Open Access
Access granted
Subscription Access
Abstract
In solutions with pH 1.5–2.5, terbium(IV) stabilized by anions of unsaturated phosphotungstate K10P2W17O61 10–, slowly oxidizes NpO2 2+·5H2O. During oxidation, the resulting Np(VII) cation retains the Np(VI) configuration; i.e., it remains a pentagonal bipyramid. Therefore, the oxidation potential of the Np(VII)/(VI) pair is higher than the potential of the pair in which Np(VII) obtained by acidifying the Np(VII) anion retains the octahedral configuration. The high potential of Np(VII) with the pentagonal bipyramidal structure makes Np(VII) unstable. It was impossible to obtain it using strong oxidizing agents such as persulfate, perxenate, and xenon difluoride. Probably, pulse radiolysis will be an effective method for oxidizing Np(VI) in deaerated solutions at pH 1.5–3, containing persulfate or XeO3.
Keywords
About the authors
V. P Shilov
Frumkin Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences
Email: ShilovV@ipc.rssi.ru
Moscow, Russia
A. M Fedoseev
Frumkin Institute of Physical Chemistry and Electrochemistry, Russian Academy of Sciences
Email: A.Fedosseev@gmail.com
Moscow, Russia
References
- Шилов В.П., Юсов А.Б., Федосеев А.М. // Радиохимия. 2009. Т. 51. № 2. С. 121–122.
- Stanbury D.M. // Adv. Inorg. Chem. 1989. Vol. 31. P. 69.
- Bratsch S.G. // J. Phys. Chem. Data. 1989. Vol. 18. N 1. P. 1–21.
- Appelman E.H., Malm J.G. // J. Am. Chem. Soc. 1964. Vol. 86. N 11. P. 2297–2298.
- Климов В.Д., Прусаков В.Н., Соколов В.Б. // Радиохимия. 1971. Т. 13. № 5. С. 725–728.
- Гончаров А.А., Козлов Ю.Н., Пурмаль А.П. // ЖФХ. 1979. Т. 53. № 10. С. 2685–2687.
- Shilov V.P., Fedoseev A.M. // Russ. J. Gen. Chem. 2022. Vol. 92. N 11. P. 2511–2515.
- Yoshida Z., Johnson S.G., Kimura T., Krsul J.R. Neptunium // The Chemistry of the Actinide and Transactinide Elements / Eds. L.R. Morss, N.M. Edelstein, J. Fuger, J.J. Katz. Springer, 2006. Vol. 2. P. 699–812.
- Крот Н.Н., Гельман А.Д., Мефодьева М.П., Шилов В.П., Перетрухин В.Ф., Спицын В.И. Семивалентное состояние нептуния, плутония, америция. М.: Наука, 1977. 149 с.
- Шилов В.П. // Координац. химия. 1981. Т. 7. № 11. С. 1654–1658.
- Шилов В.П., Гоголев А.В., Федосеев А.М. // Радиохимия. 2018. Т. 60. № 6. C. 483–490
- Shilov V.P., Gogolev A.V., Fedoseev A.M. // Radiochemistry. 2018. Vol. 60. N 6. P. 563–572.
- Шилов В.П. // ЖФХ. 1996. Т. 70. N 10. C. 1915–1917.
- Sullivan J.C., Gordon S., Cohen D., Mulac W., Schmidt K.H. // J. Phys. Chem. 1976. Vol. 80. N 15. P. 1684–1686.
Supplementary files
