Разработка биологически активных материалов на основе целлюлозных и синтетических волокон
Ключевые слова:
целлюлозные и синтетические волокна, антимикробные препараты, сорбционно-десорбционные свойства
Аннотация
Изучено влияние полимерной матрицы на сорбционно-диффузионные характери-стики различных антимикробных препаратов. Показано, что регулировать антимикробную активность волокнистого изделия можно изменением надмолекулярной структуры и функционального состава целлюлозного волокна, изменением условий иммобилизации биопрепаратов, использованием для модификации полимера композиционного состава ан-тимикробного препарата, варьированием соотношений модифицированных натуральных и синтетических волокон в текстильной матрице.
Литература
1. Virnik A.D. Biologically active cellulose derivatives. Uspekhi khimii. 1973. V. XLII. N 3. P. 547-567.
2. Wolf L.A. Journal. prikl. chemistry. 1966. N 11. P. 2608-2609.
3. Rogovin Z.A., Galbreich L.S. Chemical transformations and modification cellulose. M.: Chemistry. 1979. 205 p.
4. Bytensky V.Ya., Kuznetsova E.P. Production of cellulose es-ters. L.: Chemistry. 1974. P. 160-174.
5. Kopeikin V.V., Panarin E.F. Water-soluble nanocomposites of zero-valence metallic silver with increased antimicrobial activity. Reports of the Academy of Sciences. 2001. V. 380. N 4. P. 497-501.
6. Papkov S.P., Feinberg E.Z. Interaction of cellulose and cel-lulose materials with water. M.: Chemistry. 1976. 231 p.
7. Zavadsky A.E. Changing the fine structure of cotton cellulose with various methods of mercerization. ChemChemTech [Izv. Vyssh. Uchebn. Zaved. Khim. Khim. Tekhnol.]. 1980. N 1. P. 55-57.
8. Zavadsky A.E. The study of the influence of temperature on the relaxation of cotton fabrics in the process of merceriza-tion. Izv. vuzov. Chemistry and chemical technology. 1984. V. 26. N 6. P. 719-722.
9. Melnikov B.N., Moryganov A.P., Kalinnikov Yu.A. Theory and practice of high-speed fixation of dyes on textile materi-als. Moscow, Legprombytizdat. 1987. 208 p.
10. Dymnikova N.S., Erokhina E.V., Moryganov A.P. Silver Nano-particles: Dependence of the Antimicrobial Activity on the Syn-thesis Conditions. Russian Journal of General Chemistry. 2021. V. 91. N 3. P. 564-570 DOI:10.1134/S1070363221030270.
11. Khain V.S. Application of alkali metal tetrahydroborates in analytical chemistry. Journal of Analytical Chemistry. 1981. V. 36. N 5. P. 988-1007.
12. Shevchenko G.P., Sviridov V.V. Nanodisperse metals formed in chemical reduction reactions in an aqueous medium. Bul-letin of BSU. 2003. Ser. 2. P. 56-73.
13. Melnikov B.N., Zakharova T.D., Kirillova M.N. Physico-chemical bases of finishing production processes. M.: Light and food industry. 1982. 280 p.
14. Kulish A.N., Nesterova L.A., Kuligin M.L. Bulletin of Khmelnitsky National University. Technical Sciences. 2013. N 1. P. 229-231.
2. Wolf L.A. Journal. prikl. chemistry. 1966. N 11. P. 2608-2609.
3. Rogovin Z.A., Galbreich L.S. Chemical transformations and modification cellulose. M.: Chemistry. 1979. 205 p.
4. Bytensky V.Ya., Kuznetsova E.P. Production of cellulose es-ters. L.: Chemistry. 1974. P. 160-174.
5. Kopeikin V.V., Panarin E.F. Water-soluble nanocomposites of zero-valence metallic silver with increased antimicrobial activity. Reports of the Academy of Sciences. 2001. V. 380. N 4. P. 497-501.
6. Papkov S.P., Feinberg E.Z. Interaction of cellulose and cel-lulose materials with water. M.: Chemistry. 1976. 231 p.
7. Zavadsky A.E. Changing the fine structure of cotton cellulose with various methods of mercerization. ChemChemTech [Izv. Vyssh. Uchebn. Zaved. Khim. Khim. Tekhnol.]. 1980. N 1. P. 55-57.
8. Zavadsky A.E. The study of the influence of temperature on the relaxation of cotton fabrics in the process of merceriza-tion. Izv. vuzov. Chemistry and chemical technology. 1984. V. 26. N 6. P. 719-722.
9. Melnikov B.N., Moryganov A.P., Kalinnikov Yu.A. Theory and practice of high-speed fixation of dyes on textile materi-als. Moscow, Legprombytizdat. 1987. 208 p.
10. Dymnikova N.S., Erokhina E.V., Moryganov A.P. Silver Nano-particles: Dependence of the Antimicrobial Activity on the Syn-thesis Conditions. Russian Journal of General Chemistry. 2021. V. 91. N 3. P. 564-570 DOI:10.1134/S1070363221030270.
11. Khain V.S. Application of alkali metal tetrahydroborates in analytical chemistry. Journal of Analytical Chemistry. 1981. V. 36. N 5. P. 988-1007.
12. Shevchenko G.P., Sviridov V.V. Nanodisperse metals formed in chemical reduction reactions in an aqueous medium. Bul-letin of BSU. 2003. Ser. 2. P. 56-73.
13. Melnikov B.N., Zakharova T.D., Kirillova M.N. Physico-chemical bases of finishing production processes. M.: Light and food industry. 1982. 280 p.
14. Kulish A.N., Nesterova L.A., Kuligin M.L. Bulletin of Khmelnitsky National University. Technical Sciences. 2013. N 1. P. 229-231.
Опубликован
2022-12-26
Как цитировать
Ерохина, Е., Дымникова, Н., & Морыганов, А. (2022). Разработка биологически активных материалов на основе целлюлозных и синтетических волокон. Российский химический журнал, 66(4), 6-13. https://doi.org/10.6060/rcj.2022664.1
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