Organizing co mmittee
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- Bu səhifədəki naviqasiya:
- A.A. Sarymsakov
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References
1. В.В. Зарубаев, В.Б. Аникин, В.С.Смирно, Инфекция и иммунитет, Т. 6, № 3, с. 199–206 (2016) 2. И.Д. Кароматов. Солодка, лакричник, лакрица - применение в медицине (обзор литературы) - Актуальные пробл. гуманитарных и естественных наук 2013, 11(58), 230-235. 3. R. S. Esanov, Kh. M. Bobakulov, N. D. Abdullaev, M. B. Gafurov, and Kh. A. Yuldashev. Chem. Nat. Compd. , 57 (2), 335 (2021) 4. Л.А. Балтина, Р.М. Кондратенко, С.Р. Мустафина, О.Б. Флехтер, Ю.И. Муринов, В.А. Давыдова, Ф.С. Зарудий, А.Ф. Исмагилова, Г.А. Толстиков. Хим.фарм. журнал , 35 , 38 (2001) 5. Л.А. Балтина, О.Б. Флехтер, Ж.М. Путиева, Р.М. Кондратенко, Л.В. Краснова, Г.А.Толстиков. Хим.фарм. журнал ., 96 , 47 (1996) 6. L.A. Baltina, M.V. Khudobko, L.R. Mikhailova, L.A. Baltina, V.A. Fedorova, Ya.A. Orshanskaya, V.V. Zarubaev, O.I. Kiselev. Chem. Nat. Compd., 50 , 473 (2014). Poster presentation 275 SYNTHESIS AND CHARACTERIZATION OF SODIUM- CARBOXYMETHYLCELLULOSE SOLUTION CONTAINING ZINC OXIDE NANOPARTICLES FOR THE CREATION OF BIOMATERIALS M.M. Mirkholisov, K. E. Yunusov, A.A. Sarymsakov Institute of Polymer Chemistry and Physics, Uzbekistan Academy of Sciences, 100128, Tashkent, str A. Qodiriy, 7 “ b ”, е-mail: polymer@academy.uz Creation the of special biomaterials based on cellulose-containing zinc and its oxides with antibacterial properties at cleaning the atmospheric air from toxic viruses and bacteria is one of the serious problems of pharmaceutical and chemical scientists [1]. Zinc oxide nanoparticles (ZnONP) is considered to be non-toxic to humans and has a high antibacterial effect, and is also important in restoring the immune system [2]. The purpose of this work is to synthesize ZnONPs in the sodium – carboxymethylcellulose (Na-CMC) solutions and study physicochemical characteristics by UV-spectroscopic method in order to determine the size and shape of nanoparticles. An aqueous solution with a concentration of 1% was prepared from purified Na- CMC with a degree of substitution (DS)-0.85 and a degree of polymerization (DP)- 1050. For the synthesis of ZnONPs were used 0.1 M aqueous solution of zinc nitrate (Zn(NO 3 ) 2 ). After adding the amount of Zn(NO 3 ) 2 to the solution of Na-CMC the Zn 2+ ions react with carboxymethyl (CH 2 COO - ) groups of Na-CMC forming Zn 2+ CMC hydrogel with ionic coordination bonds. By adding sodium hydroxide, the ions of zinc were restored to a metallic state by the formation of ZnONPs. In order to determine the size and shape of ZnONPs which are synthesized in the Na-CMC matrix, were carried out UV- spectroscopic studies. The maximum absorption spectra of the synthesized ZnO/CMC solution spectra were observed at the λ max -370 nm wavelength, which characterized the formation of spherical ZnONPs with sizes 10-80 nm in the solution. In the ZnO/CMC film obtained film solution was observed by atomic force microscopic investigation ZnONPs with sizes 5-68 nm. Yüklə 5,12 Mb. Dostları ilə paylaş:
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