Growth of Zinc Compound Nanocrystals from Different Electrolytes
- Authors: Danilevskaya N.B.1, Lysytsya A.V.1, Moroz M.V.2, Nechyporuk B.D.1, Novoselets’kyi N.Y.1, Rudyk B.P.2
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Affiliations:
- Rivne State Humanitarian University
- National University of Water and Environmental Engineering
- Issue: Vol 63, No 3 (2018)
- Pages: 411-415
- Section: Physics of Nanostructures
- URL: https://journals.rcsi.science/1063-7842/article/view/200994
- DOI: https://doi.org/10.1134/S1063784218030076
- ID: 200994
Cite item
Abstract
The influence of the electrolyte composition on electrolytically synthesized zinc compound powders has been studied. It has been shown that if an electrolyte made by dissolving Na2S2O3 ∙ 5H2O is kept at room temperature, a mixture of zinc sulfide and hydrozincite is obtained. An electrolyte containing Na2SO3 or Na2S ∙ 9H2O gives a mixture of hydrozincite with zinc oxide and/or with zinc sulfide. The size of nanocrystals has been determined. It has been found that hydrozincite decomposes into zinc oxide, water, and carbon dioxide in the temperature range of 200–250°C.
About the authors
N. B. Danilevskaya
Rivne State Humanitarian University
Email: rexismundi@gmail.com
Ukraine, ul. S. Bandery 12, Rivne, 33000
A. V. Lysytsya
Rivne State Humanitarian University
Email: rexismundi@gmail.com
Ukraine, ul. S. Bandery 12, Rivne, 33000
M. V. Moroz
National University of Water and Environmental Engineering
Email: rexismundi@gmail.com
Ukraine, Sobornaya ul. 11, Rivne, 33028
B. D. Nechyporuk
Rivne State Humanitarian University
Email: rexismundi@gmail.com
Ukraine, ul. S. Bandery 12, Rivne, 33000
N. Yu. Novoselets’kyi
Rivne State Humanitarian University
Email: rexismundi@gmail.com
Ukraine, ul. S. Bandery 12, Rivne, 33000
B. P. Rudyk
National University of Water and Environmental Engineering
Author for correspondence.
Email: rexismundi@gmail.com
Ukraine, Sobornaya ul. 11, Rivne, 33028