Amorphous silica gel as a surfactant for saponins: support, synthesis, and texture characteristics
Keywords:
sorbent, sol-gel, saponin, surfactant, specific surface area, pore size, capillary condensation
Abstract
Silica sorbent samples were synthesized at different temperatures using saponins as surfactants in an acidic medium. The textural properties of the sorbent samples were studied by adsorbing benzene vapor onto them. The specific surface area of the sorbents at different temperatures was found to be 854,2 m2/g, while the pore volume ranged from 0,32 to 0,90 cm3/g. The average diameter of the pores was found to be in the range of 0,8-32,1 nm.
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Arzimurodova X. Ismatov D. M., Uzokov J. R., Mukhamadiyev A. N., Mukhamadiev N. Q. Quantum chemical evaluation of complex formation of Co(II) ions with quercetin molecule // Central Asian Journal of Medical and Natural Science. – 2022. – V. 3. – №. 3. – P. 338-344.
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Tan J. Z. Y. 3D direct ink printed materials for chemical conversion and environmental remediation applications: a review //Journal of Materials Chemistry A. – 2023.
Elma M. et al. Hydrogel derived from water hyacinth and pectin from banana peel as a membrane layer //Materials Today: Proceedings. – 2023.
Tselishchev Yu. G., Kondrashova N. B., Lebedeva I. I. Formation of textural and structural properties of mesoporous silicon oxide // The Fifth International Conference of the CIS countries "Sol-gel synthesis and study of inorganic compounds, hybrid functional materials and disperse systems" - "Sol-gel 2018". - 2018. - S. 295-295.
Chircov C. Mesoporous silica platforms with potential applications in release and adsorption of active agents //Molecules. – 2020. – V. 25. – №. 17. – P. 3814.
Sayari A., Han B. H., Yang Y. Simple synthesis route to monodispersed SBA-15 silica rods // Journal of the American Chemical Society. – 2004. – V. 126. – № 44. – P. 14348-14349.
Schubert U. Chemistry and fundamentals of the sol–gel process // The Sol‐Gel Handbook. – 2015. – P. 1-28.
Schuth F. Endo‐and exotemplating to create high‐surface‐area inorganic materials // Angewandte Chemie International Edition. – 2003. –V. 42. – № 31. – P. 3604-3622.
Serban B. A., Barrett-Catton E., Serban M. A. Tetraethyl orthosilicate-based hydrogels for drug delivery effects of their nanoparticulate structure on release properties // Gels. – 2020. – V. 6. – № 4. – P. 38.
Shahbazi M. A., Herranz B., Santos H. A. Nanostructured porous Si-based nanoparticles for targeted drug delivery // Biomatter. – 2012. – V. 2. – № 4. – P. 296-312.
Silva R. F., Vasconcelos W. L. Influence of processing variables on the pore structure of silica gels obtained with tetraethylorthosilicate // Materials Research. – 1999. – V. 2. – P. 197-200.
Published
2023-04-28
How to Cite
Ulugboyeva G.O., Uzokov J.R., Mukhammadiyev N.Q., & Mukhamadiyev A.N. (2023). Amorphous silica gel as a surfactant for saponins: support, synthesis, and texture characteristics. Central Asian Journal of Medical and Natural Science, 4(2), 601-607. https://doi.org/10.17605/cajmns.v4i2.1471
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