Growth of Zinc Compound Nanocrystals from Different Electrolytes
- 5 Downloads
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.
Unable to display preview. Download preview PDF.
- 3.R. Raguvaran, A. Manuja, and B. K. Manuja, Immunome Res. 11 (1), 095 (2015).Google Scholar
- 6.V. S. S. Kumar and K. V. Rao, J. Nano-Electron. Phys. 5, 02026 (2013).Google Scholar
- 10.N. Beedri, Y. Inamdar, S. A. Sayyed, A. Shaikh, S. Jadkar, and H. Pathan, Chem. Chem. Technol. 8, 283 (2014).Google Scholar
- 11.Yu. F. Lavorik, B. D. Nechyporuk, N. Yu. Novoselets’kyi, O. V. Parasyuk, B. P. Rudyk, and V. V. Filonenko, UA Patent No. 92078 (2010).Google Scholar
- 13.N. A. Salahuddin, M. El-Kemary, and E. M. Ibrahim, Nanosci. Nanotech. 5 (4), 82 (2015).Google Scholar
- 16.N. B. Danilevska, M. V. Moroz, B. D. Nechyporuk, N. Yu. Novoseletskyy, and B. P. Rudyk, J. Phys. Stud. 20, 3601 (2016).Google Scholar
- 17.Yu. I. Sirotin and M. P. Shaskol’skaya, Fundamentals of Crystal Physics (Nauka, Moscow, 1975).Google Scholar
- 18.S. Adachi, Handbook on Physical Properties of Semiconductors (Springer, 2004), Vol. 3.Google Scholar