Synthesis and their texture characteristics of mesoporous silica gel as surfactant supporting rutin
Keywords:
sol-gel, rutin, surfactant, mesoporous sorbent, specific surface area, sorption capacity
Abstract
Mesoporous silica sorbent samples ordered at 30÷80°С were synthesized using the surfactant rutin using sol-gel technology. Based on the sorption of benzene vapors on sorbents, their texture and sorption properties were studied. According to it, it was determined that the specific surface area (SBET) of the sorbents is 675,6÷514,5 m2/g, and the average diameter of the pores is equal to 5,3÷32,8 nm.
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Thangadurai D. Mesoporous Nanomaterials: Properties and Applications in Environmental Sector // Handbook of Nanomaterials and Nanocomposites for Energy and Environmental Applications. – 2021. – P. 403-420.
Rahman N. B. Synthesis and characterization of mesoporous silica MCM-41 and SBA-15 from power plant bottom ash // Malays. J. Anal. Sci. – 2016. – V. 20. – P. 539-545.
Shinde P. S. A brief overview of recent progress in porous silica as catalyst supports //Journal of Composites Science. – 2021. – V. 5. – №. 3. – P. 75.
Uzokov J. R., Mukhamadiev N. K. Sorption characteristics of mesoporous composite SiO2·TiO2 // Central Asian Journal of Medical and Natural Science. – 2021. – V. 2. – №. 5. – P. 494-498.
Rahmat N., Abdullah A. Z., Mohamed A. R. A review: Mesoporous Santa Barbara amorphous-15, types, synthesis and its applications towards biorefinery production // American Journal of Applied Sciences. – 2010. – V. 7. – №. 12. – P. 1579.
Uzokov J. R., Mukhamadiev N. K. Sorption characteristics of the mesoporous sorbents based on tetraethoxysilane and titanium oxide // European Journal of Molecular & Clinical Medicine. – 2020. – V. 7. – №. 07. – P. 656-660.
Moritz M., Geszke-Moritz M. Sulfonic acid derivative-modified SBA-15, PHTS and MCM-41 mesoporous silicas as carriers for a new antiplatelet drug: Ticagrelor adsorption and release studies //Materials. – 2020. – V. 13. – №. 13. – P. 2913.
Diyarov A. A., Mukhamadiev N. Q., & Uzokov J. R. Synthesis of mesoporous sorbents on the basis of Al2O3 and their textural characteristics //Central Asian Journal of Medical and Natural Science. – 2022. – V. 3. – №. 3. – P. 511-518.
Chircov C. Mesoporous silica platforms with potential applications in release and adsorption of active agents // Molecules. – 2020. – V. 25. – №. 17. – P. 3814.
Kong X. P., Zhang B. H., Wang J. Multiple roles of mesoporous silica in safe pesticide application by nanotechnology: A review // Journal of Agricultural and Food Chemistry. – 2021. – V. 69. – №. 24. – P. 6735-6754.
Usmonova H. Uzokov J. R., Mukhamadiev N.Q., Mukhamadiev A. N. Study of structural and electronic properties of (ZnO)n (n=10÷30) nanoclusters using quantum chemical methods // Central Asian Journal of Medical and Natural Science. – 2022. – V. 3. – №. 6. – P. 428-434.
Sayitkulov Sh. M. Uzokov, Zh., Saidov, Kh. M., Mukhamadiev, N. K. Study of the texture characteristics of silicon oxide as a catalyst carrier // XXXV All-Russian Symposium of Young Scientists on Chemical Kinetics. – 2018. – P. 124-124 (in Russian).
Al-Othman Z. A. Synthesis, modification, and application of mesoporous materials based on MCM-41. – Oklahoma State University, 2006.
Loste J. Transparent polymer nanocomposites: An overview on their synthesis and advanced properties // Progress in Polymer Science. – 2019. – V. 89. – P. 133-158.
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.
Xu S. Conducting polymer-based flexible thermoelectric materials and devices: From mechanisms to applications //Progress in Materials Science. – 2021. – V. 121. – P. 100840.
Published
2023-04-28
How to Cite
Mamaziyaeva S., Uzokov J.R., Mukhammadiyev N.Q., & Mukhamadiyev A.N. (2023). Synthesis and their texture characteristics of mesoporous silica gel as surfactant supporting rutin. Central Asian Journal of Medical and Natural Science, 4(2), 608-614. https://doi.org/10.17605/cajmns.v4i2.1472
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