Organizing co mmittee
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- Bu səhifədəki naviqasiya:
- UV-SPECTROSCOPIC STUDIES CHITOSAN SULFATE Bombyx mori V.N. Rakhmanova, M.A. Muslimova, N.S. Ashurov, S.S. Rashidova
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№ Sample name Content N, % Content, % Degree of binding, % Productivity, % 1 CS initial 8,21 - - - 2 CS: СA 1:1 4,54 57,0 55,0 52,0 2 CS: СA 2:1 5,71 32,7 71,7 80,0 4 CS: СA 3:1 6,30 31,3 96,0 85,7 5 CS: СA 4:1 7,12 26,1 96,2 82,8 Poster presentation 232 UV-SPECTROSCOPIC STUDIES CHITOSAN SULFATE Bombyx mori V.N. Rakhmanova, M.A. Muslimova, N.S. Ashurov, S.S. Rashidova Institute of Chemistry and Physics of Polymers ASRU, 100128, Tashkent, A. Kadyri str. 7 b, е-mail: polymer@academy.uz It is known that chitosan does not dissolve in water and this to a certain extent limits its practical application. The production of water-soluble chitosan derivatives expands its range of applications in biomedicine. One of the ways of obtaining water-soluble chitosan derivatives is its interaction with acids of different nature. In recent years, the interest in these objects sharply increased thanks to numerous studies, which showed that when switching from micro- to nano-particles there occurs qualitative change in many physical and chemical properties of substances, the nature of kinetics of chemical processes and particles flowing on the surface. In this work, the nanoparticles of sulfochitosan were obtained and their structural properties were investigated via UV-Spectroscopy. The results obtained via UV-Spectroscopy show that with the increase of substitution degree in chitosan sulfate a noticeable change of absorption band happens within the range of 200-220 nm and 270-280 nm which may be related with n- * and n- * transitions of nitrogen electrons and oxygen of the original chitosan as well as substituted sulfogroups S=O. Changes in absorption bands may be related with the formation of covalent links between chitosan amino groups and chlorosulfonic acid, which leads to a decrease in electronic transitions n- * of an unshared pair of nitrogen electrons. It should be noted that with a component ratio of 1:10 the low molecular weight fractions of chitosan sulfate were formed as a result of a strong destruction of macromolecules. Decrease in band intensity within the range of 270- 280 nm was detected. Thus, the research results suggest that the most optimal conditions for the production of chitosan sulfate Bombyx mori with a high degree of substitution and low destruction are duration 3 hours, chlorosulfonic acid:chitosan ratio of 6:1 and the temperature of 50 o C. It was established that when stored during 1 month, the samples of chitosan sulfate solutions with varying degrees of substitution will stay stable. Yüklə 5,12 Mb. Dostları ilə paylaş:
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