Nanoparticle production of Cu2O in condition of ultrasonically induced cavitation

R.N. Galiahmetov, A.G. Mustafin, R.R. Garafutdinov, G.M. Kuznetsova show affiliations and emails
Received: 12 September 2011; Revised: 10 October 2011; Accepted: 13 October 2011
This paper is written in Russian
Citation: R.N. Galiahmetov, A.G. Mustafin, R.R. Garafutdinov, G.M. Kuznetsova. Nanoparticle production of Cu2O in condition of ultrasonically induced cavitation. Lett. Mater., 2011, 1(3) 176-178
BibTex   https://doi.org/10.22226/2410-3535-2011-3-176-178

Abstract

Researches were held to derive nanoparticles of Cu2O by reclamation by means of ultrasonic influence. Dimension of particles was determined by the instrumentality of atomic-force microscopy. Distribution of particles according to sizes appeared approximate to Gaussian. Maximum quantity goes to particles with size of 5-10 nanometers. Maximum size appeared equal to 22 nanometers, and medium is 7,5 nanometers.  

References (5)

1. S.Ch. Srivastava. Nature. 182(47), 4627 (1958).
2. E.A. Smorodov, R.N. Galiahmetov, M.A. Ilgamov. Physicsand chemistry of cavitation. Moscow: Science, 2008. (inRussian) [Смородов Е.А., Галиахметов Р.Н., ИльгамовМ.А. Физика и химия кавитации. М.: Наука, 2008].
3. E.A. Smorodov. Experimental researches of cavitation inviscous liquid: author’s abstract of dissertation. … candidateof physico-mathematical science, Moscow: publishingcompany Aural Andreev institute, 1987. (in Russian)[Смородов Е.А. Экспериментальные исследованиякавитации в вязких жидкостях. Автореф. дисс. насоиск. уч. ст. канд. ф-мат наук , М.: Акуст. Ин. ИмАндреева 1987].
4. V.L. Mironov. Grounds of scanning probe microscopy:tutorial, Nignyi Novgorod (2004) p.110. (in Russian)[Миронов В.Л. Основы сканирующей зондовоймикроскопии: учеб. пособие. - Нижний Новгород(2004) 110с.].
5. G. Bekker, V. Berger, G. Domshke. Practical work onorganic chemistry. T. 2, Moscow: Mir (1979) p.373.(in Russian) [Беккер Г., Бергер В., Домшке Г. и др.Органикум. Практикум по органической химии. Т.2, М.: Мир (1979) 373c.].

Cited by (1)

1.
S.V. Stolyar, O.A. Bayukov, R.N. Yaroslavtsev, Yu.V. Knyazev, V.P. Ladygina, Yu.V. Gerasimova, R.S. Iskhakov. Advanced Powder Technology. (2019). Crossref

Similar papers