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KARBOKSIMETILSELLYULOZA VA SERITSIN ASOSIDA BIOKOMPOZIT GIDROGELNING OLINISHI VA XOSSALARI

Mualliflar

DOI:

https://doi.org/10.56292/SJFSU/vol31_iss6/a227

Kalit so‘zlar:

Natriy-karboksimetilsellyuloza, seritsin, gidrogel, biokompozit, poralar, qovushqoqlik.

Annotatsiya

Mazkur maqolada, almashinish darajasi (AD) 0.88 va polimerlanish darajasi (PD) 850 bo‘lgan tozalangan natriy-karboksimetilsellyuloza (Na-KMS) va tabiiy ipakdan olingan seritsin asosida  biokompozit gidrogel olingan va uning fizik-kimyoviy xossalari tahlil qilingan. Olingan gidrogel tarkibida Na-KMS va seritsin makromolekulalaridagi karboksil COO guruhlari bilan amid-I va amid-II guruhlari orasida hosil bo’lgan elektrostatik ta’sirlar IQ-Furye spektrlarning 1600-1700 sm−1 sohalarida aniqlandi. Na-KMS va seritsin makromolekulalarining funksional guruhlari hisobiga molekulalararo tikilishlar natijasida gidrogelning qovushqoqligi teng miqdorda ortganligi reologik tadqiqotlar orqali isbotlandi. Na-KMS/Seritsin gidrogelining liofilizatorda quritilgan kukun namunalarining poralar o’lchamlari skaner elektron mikroskopiya (SEM) tadqiqotlar orqali tadqiq etilganda poralar o’lchamlari 20-110 μm ekanligi aniqlandi.

Mualliflar haqida

  • Turaqulov Foziljon Mamarayim o‘g‘li, O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, PhD

    O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, PhD

  • Yunusov Xaydar Ergashovich, O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, texnika fanlari doktori,katta ilmiy xodim.

    O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, texnika fanlari doktori,katta ilmiy xodim.

  • Yarmatov Sardor Sobirjonovich, O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, PhD, katta ilmiy xodim.

    O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, PhD,

    katta ilmiy xodim.

  • Burxonova Xurshidabonu Isroil qizi, O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, stajyor-tadqiqotchi,

    O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, stajyor-tadqiqotchi,

  • Sarimsaqov Abdushkur Abduxalilovich, O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, texnika fanlari doktori, professor.

    O‘zbekiston Respublikasi Fanlar Akademiyasi Polimerlar kimyosi va fizikasi instituti, texnika fanlari doktori, professor.

Adabiyotlar

1. Yuldoshov Sh.A., Yunusov Kh.E., Sarymsakov A.A., Goyibnazarov I.Sh. Synthesis and characterization of sodium carboxymethylcellulose from cotton, powder, microcrystalline and nanocellulose. Polymer Engineering and Science. 2022, V.62, Pр-677–686.

2. Ali M., Khan N.R., Basit H.M., Mahmood S. Physico-chemical based mechanistic insight into surfactant modulated sodium Carboxymethylcellulose film for skin tissue regeneration applications. Journal of Polymer Research. 2020, 27, Pp.-1–11.

3. Roy S., Rhim J.W. Carboxymethyl cellulose-based antioxidant and antimicrobial active packaging film incorporated with curcumin and zinc oxide. International Journal of Biological Macromolecules. 2020. 148. Pp.-666–676.

4. Rakhmanberdiev G.R., Sidikov A.S., Cellulose Supramolecular Structure Changes During Activation by Organophosphorus Compounds. Chemistry of Natural Compounds. 2020, 3, Pp.-620–622.

5. Javanbakht S, Nazeri M.T., Shaabani A., Ghorbani M. Green one-pot synthesis of multicomponent-crosslinked carboxymethyl cellulose as a safe carrier for the gentamicin oral delivery. International Journal of Biological Macromolecules. 2020, 164, Pp.-2873–2880.

6. Alsaaed F.A., El-Lateef H.M.A., Khalaf M.M., Mohamed I.M., Al-Omair M.A., Gouda M. Drug delivery system based on carboxymethyl cellulose containing metal-organic framework and its evaluation for antibacterial activity. Polymers. 2022, 14(18), Pp.-3815.

7. Goyibnazarov I.Sh., Yuldoshov, Sh. A., Yarmatov, S. S., Yunusov, K. E., Sarymsakov, A. A., Shukurov, A. I., Sharibov I.I. Physico-chemical characteristics of dialdehyde carboxymethylcellulose/sericin graft copolymer. Journal of Polymer Research. 2025,32, Pp.-205.

8. Sarymsakov A.A., Yarmatov S.S., Kh. E. Yunusov. “Extraction of Sericin from Cocoons of the Silkworm Bombyx Mori, Its Characteristics, and a Dietary Supplement on Its Basis to Prevent Diabetes Mellitus.” Polymer Science, Series B. 2024, 66, Pp.-89–96.

9. Nerurkar N.L., Elliott D.M., Mauck R.L. Mechanical design criteria for intervertebral disc tissue engineering. J Biomech. 2010, 43(6), Pp.-1017-30.

10. Kono H. Characterization and properties of carboxymethyl cellulose hydrogels crosslinked by polyethylene glycol. Carbohydr Polymers. 2014, 106, Pp.-84-93.

11. Sarymsakov A.A., Yarmatov S.S., Yunusov K.E. Preparation and Physicochemical Properties of a Hemosorbent Derived from Bombyx mori Cocoon Fibroin. Russian Journal of Applied Chemistry. 2022, 95(7), Pp.-988-995.

12. Silva A.S., Costa E.C., Reis S., Spencer C., Calhelha R.C., Miguel S.P., Ribeiro M.P., Barros L., Vaz J.A., Coutinho P. Silk Sericin: A Promising Sustainable Biomaterial for Biomedical and Pharmaceutical Applications. Polymers (Basel). 2022, 15;14(22), Pp.-4931.

13. Sarymsakov A.A., Yarmatov S.S., Yunusov Kh.E. Physicochemical, Sorption, and Morphological Characteristics of Bombyx Mori Silkworm Cocoon Fibroin and a Multifunctional Hemosorbent Obtained on Its Basis. Polymer Science, Series A. 2023, 65(3), Pp.-256-263.

14. Azizova M.A., Karabaeva B.S., Yarmatov S.S., Sarimsakov A.A. Development of a Technology for Producing an Original Polyfunctional Hemosorbent Based on Silk Fibroin. Universum: chemistry and biology. 2025, 3, Pp.-129.

15. Wagner P., Sylwia R., Ewelina W., Adrianna F., Jacek R. “Rheological Properties of Sodium Carboxymethylcellulose Solutions in Dihydroxy Alcohol/Water Mixtures”. Materials. 2023, 16(1), Pp.-1-13.

16. Yunusov Kh.E., Turakulov F.M., Sarymsakov A.A., Yuldoshov Sh. A., Rashidova S.Sh., Guohua J. Physicochemical characteristics of a nanocomposite film based on purified sodium carboxymethylcellulose and selenium nanoparticles, The Bulletin of the Korean Chemical Society, 2023, 44, I. Pp.-12.

17. Yang, X.H., Zhu W.L. Viscosity properties of sodium carboxymethylcellulose solutions. Cellulose, 2007, 14, Pp.- 409–417.

18. Ghannam M.T., Nabil M.E. "Rheological properties of carboxymethyl cellulose." Journal of applied polymer science. 1997, 64.2, Pp.-289-301.

19. Vulpe R, Le Cerf D., Dulong V., Popa M., Peptu C., Verestiuc L., Picton L. Rheological study of in-situ crosslinkable hydrogels based on hyaluronanic acid, collagen and sericin. Materials Science and Engineering. 2016, 69, Pp.-388-397.

20. Turakulov F.M., Yunusov Kh.E., Sarymsakov A.A., Аtakhanov A.A., Guohua J., Rui W., Yi W., Somia Y.H.A., Xakimov Z.Z., Raxmanov A.X., Turakulov M., Ignatovich Zh.V., Rogachev A.A. Synthesis, Characterization, and Cytotoxic Activity of Stable Selenium Nanoparticles incorporated Carboxymethylcellulose Solution. Polymer for Advanced Technologies. 2025, 36(6), e70232.

21. Jaramillo-Quiceno N., Callone E., Dire S. Boosting sericin extraction through alternative silk sources. Polymer Journal. 2021,53, Pp.-1425–1437.

22. Lamia M.E., Mohamed A.H., Amal A.B., Saeed E., Eman H.R., Karoline K.A., Tamer M.T., Maria A., Abeer E.W., Carboxymethyl cellulose/sericin-based hydrogels with intrinsic antibacterial, antioxidant, and anti-inflammatory properties promote re-epithelization of diabetic wounds in rats, International Journal of Pharmaceutics. 2022, 629. Pp.-12232.

23. Jaramillo-Quiceno N., Rueda-Mira S., Marín J.F.S. Development of a novel silk sericin-based hydrogel film by mixture design. Journal of Polymer Research. 2023, 30, Pp.-120.

24. Siritientong T., Aramwit P. Characteristics of carboxymethyl cellulose/sericin hydrogels and the influence of molecular weight of carboxymethyl cellulose. Macromolecular Research. 2015, 23, Pp.-861–866.

Yuklab olishlar

Nashr etilgan

2026-02-03

Son

№ 6 (2025): FarDU. Ilmiy xabarlar jurnali (Tabiiy fanlar)

Bo‘lim

Chemistry

Litsenziya

Mualliflik huquqi (c) 2025 Scientific journal of the Fergana State University

Creative Commons License

Ushbu ish Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 Xalqaro litsenziyasi ostida litsenziyalangan.

Qanday iqtibos keltirish

KARBOKSIMETILSELLYULOZA VA SERITSIN ASOSIDA BIOKOMPOZIT GIDROGELNING OLINISHI VA XOSSALARI. (2026). Scientific Journal of the Fergana State University, 31(6), 227. https://doi.org/10.56292/SJFSU/vol31_iss6/a227
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