Preparation of Silvered Colloidal Compositions for Nanocosmetic Drugs

Authors

  • N. N. Mofa Institute of Combustion Problems, 172 Bogenbai Batyr Str., Almaty, Kazakhstan
  • A. O. Zhapekova Institute of Combustion Problems, 172 Bogenbai Batyr Str., Almaty, Kazakhstan; al-Farabi Kazakh National University, 71 al-Farabi ave., Almaty, Kazakhstan
  • B. S. Sadykov Institute of Combustion Problems, 172 Bogenbai Batyr Str., Almaty, Kazakhstan; al-Farabi Kazakh National University, 71 al-Farabi ave., Almaty, Kazakhstan
  • A. E. Bakkara Institute of Combustion Problems, 172 Bogenbai Batyr Str., Almaty, Kazakhstan; al-Farabi Kazakh National University, 71 al-Farabi ave., Almaty, Kazakhstan
  • M. I. Tulepov Institute of Combustion Problems, 172 Bogenbai Batyr Str., Almaty, Kazakhstan; al-Farabi Kazakh National University, 71 al-Farabi ave., Almaty, Kazakhstan
  • B. Elouadi Université de La Rochelle, avenue Michel Crépeau 17042 La Rochelle cédex 01, France

DOI:

https://doi.org/10.18321/ectj925

Keywords:

nanosilver emulsion, silicon dioxide, modifier, electroconductivity

Abstract

 The article presents the results of obtaining nanosilver aqueous suspensions by electrolysis method with variations in the quality and composition of water, the type, and quantity of modifying additives, as well as the creation of colloidal compositions consisting of silicon dioxide and nanosilver emulsion as a result of mechanochemical treatment of the system. As a modifier of silver nanoparticles, citric acid, glycerin, and ether-cellulose were used, which can form the thinnest layers on the surface of the metal particle, preventing particles from sticking together and precipitating them. It is shown that the use of modifiers in the preparation of a colloidal solution with silver particles and ultrasonic treatment of the system provide an increase and stabilization of the activated state of colloidal systems with silver nanoparticles and silicon dioxide. Obtained under the influence of ultrasonic treatment homogeneous and resistant to delamination soft gel systems containing silver and having antimicrobial activity are promising for the manufacture of drugs for cosmetic purposes.

References

(1). A.A. Margolina, Ye.I. Ernandes. New cosmetology. Cosmetics: ingredients, recipes, application. Moscow: Cosmetics and medicine, 2015, 580 p. (in Russian).

(2). L. Wei, J. Lu, H. Xu, A. Patel, Z.-S. Chen, G. Chen, Drug Discov. Today 20 (2015) 595–601. Crossref

(3). T.B. Puchkova, L.V. Samuylova, A.I. Deyev, E.A. Fedotova. Basics of cosmetic chemistry. Basic ingredients. Vol. 1. Ed.: T.B. Puchkova. 3 edition. M.: 2017, 304 p. (in Russian).

(4). R.S. Kozlov, S.N. Kozlov. Modern antimicrobial chemical therapy. Guidelines for doctors. 2017, 370 p. (in Russian).

(5). K.S. Nesterova, Successes in chemistry and chemical technology [Uspekhi v khimii i khimicheskoy tekhnologii] 22 (2008) 99–101 (in Russian).

(6). W. Tu, H. Liu, K.Y. Liew, J. Colloid Interf. Sci. 229 (2000) 453–461. Crossref

(7). L. Ge, Q. Li, M. Wang, J. Ouyang, X. Li, M.M.Q. Xing, Int. J. Nanomed. 9 (2014) 2399–2407. Crossref

(8). I.Ye. Stanishevskaya, A.M. Stoynova, A.I. Marakhova, Ya.M. Stanishevskiy, Drug development and registration [Razrabotka i registraciâ lekarstvennyh sredstv] 1 (2014) 66– 69 p. (in Russian).

(9). A. Shiohara, A. Hoshino, Ken-ichi Hanaki, K. Suzuki, K. Yamamoto, Microbiol. Immunol. 48 (2004) 669–675. Crossref

(10). G.V. Odegova, V.A. Burmistrov, O.G. Simonov, The study of the state of silver in the drug “Argonics” and in silver-containing gel compositions based on chitosan: a training manual. Novosibirsk: Science Center, 2004, 114 p. (in Russian).

(11). S.H. Lee, B.H. Jun, Int. J. Mol. Sci. 20 (2019) 865. Crossref

(12). L.A. Kul’skiy. Silver water. Kiev: Naukova Dumka, 1968, 103 p. (in Russian).

(13). M. Rycenga, C.M. Cobley, J. Zeng, W. Li, Ch.H. Moran, Q. Zhang, D. Qin, Y. Xia, Chem. Rev. 111 (2011) 3669‒3712. Crossref

(14). F. Ishtiaq, R. Farooq, U. Farooq, A. Farooq, M. Siddique, H. Shah, M.-Ul-Hassan, M.A. Shaheen, World Appl. Sci. J. 6 (2009) 886‒893.

(15). G.N. Samarin, T.I. Skoptsova, E.А. Eventieva, D.Yu. Krivoguzov, News of the Velikiye Luki State Agricultural Academy [Izvestiya Velikolukskoj sel’skohozjajstvennoj akademii] 2017, p. 41–45. (in Russian).

(16). O.L. Khasanov, E.S. Dvilis, V.V. Polisadova, A.P. Zykova. Effects of powerful ultrasonic action on the structure and properties of nanomaterials. Tomsk: Publishing House of Tomsk Polytechnic University. 2008, 149 p. (in Russian).

(17). L.G. Kolyada, O.V. Yershova, Yu.Yu. Yefimova, Ye.V. Tarasyuk, Almanac of modern science and education [Al’manah sovremennoj nauki i obrazovanija] 10 (2013) 79–82 (in Russian).

(18). K.C. Hembram, R. Kumar, L. Kandha, P.K. Parhi, Ch.N. Kundu, B.K. Bindhani, Artif. Cell. Nanomed. B. 48 (2018) S38-S51. Crossref

(19). Ye.M. Yegorova, A.A. Kubatiayev, V.I. Shvets, Biological effects of metal nanoparticles. Moscow: Nauka, 2014, 350 p. (in Russian).

(20). K. Szczepanowicz, J. Stefańska, R.P. Socha, P. Warszyński, Physicochem. Probl. Miner. Process. 45 (2010) 85‒98.

(21). J.S. Taurozzi, H. Arul, V.Z. Bozak, A.F. Burban, T.C. Voice, M.L. Bruening, V.V. Tarabara, J. Membrane Sci. 325 (2008) 58‒68. Crossref

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Published

2020-03-29

How to Cite

Mofa, N. N., Zhapekova, A. O., Sadykov, B. S., Bakkara, A. E., Tulepov, M. I., & Elouadi, B. (2020). Preparation of Silvered Colloidal Compositions for Nanocosmetic Drugs. Eurasian Chemico-Technological Journal, 22(1), 11–18. https://doi.org/10.18321/ectj925

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