Bioactive silicon-iron-containing glycerohydrogel synthesized by the sol—gel method in the presence of chitosan

Standard

Bioactive silicon-iron-containing glycerohydrogel synthesized by the sol—gel method in the presence of chitosan. / Khonina, T. G.; Tishin, D. S.; Larionov, L. P. et al.
In: Russian Chemical Bulletin, Vol. 71, No. 11, 01.11.2022, p. 2342-2351.

Research output: Contribution to journal › Article › peer-review

Harvard

Khonina, TG, Tishin, DS, Larionov, LP, Dobrinskaya, MN, Antropova, IP, Izmozherova, NV, Osipenko, AV, Shadrina, EV, Nikitina, EY, Bogdanova, EA, Karabanalov, MS, Evstigneeva, NP, Kokhan, MM & Chupakhin, ON 2022, 'Bioactive silicon-iron-containing glycerohydrogel synthesized by the sol—gel method in the presence of chitosan', Russian Chemical Bulletin, vol. 71, no. 11, pp. 2342-2351. https://doi.org/10.1007/s11172-022-3661-5

APA

Khonina, T. G., Tishin, D. S., Larionov, L. P., Dobrinskaya, M. N., Antropova, I. P., Izmozherova, N. V., Osipenko, A. V., Shadrina, E. V., Nikitina, E. Y., Bogdanova, E. A., Karabanalov, M. S., Evstigneeva, N. P., Kokhan, M. M., & Chupakhin, O. N. (2022). Bioactive silicon-iron-containing glycerohydrogel synthesized by the sol—gel method in the presence of chitosan. Russian Chemical Bulletin, 71(11), 2342-2351. https://doi.org/10.1007/s11172-022-3661-5

Vancouver

Khonina TG, Tishin DS, Larionov LP, Dobrinskaya MN, Antropova IP, Izmozherova NV et al. Bioactive silicon-iron-containing glycerohydrogel synthesized by the sol—gel method in the presence of chitosan. Russian Chemical Bulletin. 2022 Nov 1;71(11):2342-2351. doi: 10.1007/s11172-022-3661-5

Author

Khonina, T. G. ; Tishin, D. S. ; Larionov, L. P. et al. / Bioactive silicon-iron-containing glycerohydrogel synthesized by the sol—gel method in the presence of chitosan. In: Russian Chemical Bulletin. 2022 ; Vol. 71, No. 11. pp. 2342-2351.

BibTeX

@article{3c3c3c4c63784e80b4545064debe4c25,

title = "Bioactive silicon-iron-containing glycerohydrogel synthesized by the sol—gel method in the presence of chitosan",

abstract = "A novel biologically active nanocomposite glycerohydrogel based on two biocompatible precursors, silicon and iron glycerolates, was synthesized by the sol—gel method in the presence of chitosan (Ch). The composition and structural features of the gel were characterized by advanced analytical methods including transmission electron microscopy, X-ray diffraction, and atomic emission spectroscopy. It was shown that iron(iii) monoglycerolate undergoes partial hydrolysis under the gelation conditions and exists as a separate nanoscale phase along with the hydrolysis products in cells of the 3D Si-containing polymeric gel network. This network is formed as a result of incomplete hydrolysis of silicon glycerolates in excess glycerol followed by homo- and heterofunctional condensation of silanol groups with the formation of Si-O-Si units containing residual glyceroxy groups at the silicon atom. Chitosan forms numerous intermolecular bonds with the 3D gel network, accelerates the process of gelation, makes the gel morphostructure more ordered, and increases the stability of the gel. The Si-Fe-Ch-containing glycerohydrogel is nontoxic and possesses hemostatic and wound-healing activity, being a promising topical medication for medical and veterinary practice. {\textcopyright} 2022, Springer Science+Business Media LLC.",

author = "Khonina, {T. G.} and Tishin, {D. S.} and Larionov, {L. P.} and Dobrinskaya, {M. N.} and Antropova, {I. P.} and Izmozherova, {N. V.} and Osipenko, {A. V.} and Shadrina, {E. V.} and Nikitina, {E. Yu.} and Bogdanova, {E. A.} and Karabanalov, {M. S.} and Evstigneeva, {N. P.} and Kokhan, {M. M.} and Chupakhin, {O. N.}",

year = "2022",

month = nov,

day = "1",

doi = "10.1007/s11172-022-3661-5",

language = "English",

volume = "71",

pages = "2342--2351",

journal = "Russian Chemical Bulletin",

issn = "1066-5285",

publisher = "Springer",

number = "11",

}

RIS

TY - JOUR

T1 - Bioactive silicon-iron-containing glycerohydrogel synthesized by the sol—gel method in the presence of chitosan

AU - Khonina, T. G.

AU - Tishin, D. S.

AU - Larionov, L. P.

AU - Dobrinskaya, M. N.

AU - Antropova, I. P.

AU - Izmozherova, N. V.

AU - Osipenko, A. V.

AU - Shadrina, E. V.

AU - Nikitina, E. Yu.

AU - Bogdanova, E. A.

AU - Karabanalov, M. S.

AU - Evstigneeva, N. P.

AU - Kokhan, M. M.

AU - Chupakhin, O. N.

PY - 2022/11/1

Y1 - 2022/11/1

N2 - A novel biologically active nanocomposite glycerohydrogel based on two biocompatible precursors, silicon and iron glycerolates, was synthesized by the sol—gel method in the presence of chitosan (Ch). The composition and structural features of the gel were characterized by advanced analytical methods including transmission electron microscopy, X-ray diffraction, and atomic emission spectroscopy. It was shown that iron(iii) monoglycerolate undergoes partial hydrolysis under the gelation conditions and exists as a separate nanoscale phase along with the hydrolysis products in cells of the 3D Si-containing polymeric gel network. This network is formed as a result of incomplete hydrolysis of silicon glycerolates in excess glycerol followed by homo- and heterofunctional condensation of silanol groups with the formation of Si-O-Si units containing residual glyceroxy groups at the silicon atom. Chitosan forms numerous intermolecular bonds with the 3D gel network, accelerates the process of gelation, makes the gel morphostructure more ordered, and increases the stability of the gel. The Si-Fe-Ch-containing glycerohydrogel is nontoxic and possesses hemostatic and wound-healing activity, being a promising topical medication for medical and veterinary practice. © 2022, Springer Science+Business Media LLC.

AB - A novel biologically active nanocomposite glycerohydrogel based on two biocompatible precursors, silicon and iron glycerolates, was synthesized by the sol—gel method in the presence of chitosan (Ch). The composition and structural features of the gel were characterized by advanced analytical methods including transmission electron microscopy, X-ray diffraction, and atomic emission spectroscopy. It was shown that iron(iii) monoglycerolate undergoes partial hydrolysis under the gelation conditions and exists as a separate nanoscale phase along with the hydrolysis products in cells of the 3D Si-containing polymeric gel network. This network is formed as a result of incomplete hydrolysis of silicon glycerolates in excess glycerol followed by homo- and heterofunctional condensation of silanol groups with the formation of Si-O-Si units containing residual glyceroxy groups at the silicon atom. Chitosan forms numerous intermolecular bonds with the 3D gel network, accelerates the process of gelation, makes the gel morphostructure more ordered, and increases the stability of the gel. The Si-Fe-Ch-containing glycerohydrogel is nontoxic and possesses hemostatic and wound-healing activity, being a promising topical medication for medical and veterinary practice. © 2022, Springer Science+Business Media LLC.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=85144294144

U2 - 10.1007/s11172-022-3661-5

DO - 10.1007/s11172-022-3661-5

M3 - Article

VL - 71

SP - 2342

EP - 2351

JO - Russian Chemical Bulletin

JF - Russian Chemical Bulletin

SN - 1066-5285

IS - 11

ER -

ID: 33184240