The kinetics of adsorption binding of Ba2+ ions by trimethylsilylated silica
DOI:
https://doi.org/10.15330/pcss.19.1.66-73Keywords:
silica, silanols, chemosorption, trimethylsilyl groups, adsorption binding of ionsAbstract
It was established that incomplete substitution of free silanols of fumed silica surface on (CH3)3Si-groups leads to an increase in the ability of modified SiO2 to adsorb Ba2+ cations from an electrolyte solution. Silica with 48.3% of trimethylsilyl (TMS) groups adsorbs 1.8 mmol·g-1 of Ba2+ cations from 0.01 M BaCl2 solution, that in 3 times more than the adsorption of these cations by unmodified silica. It was found that the adsorption of cations by basic and modified silica is well described by the pseudo-second order Lagergren equation. The high adsorption activity of silica with chemisorbed TMS-groups is due to the formation of local regions with relatively large values of negative and positive electrostatic potentials in the vicinity of grafted TMS-groups.
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Published
2018-03-15
How to Cite
Myronyuk, I. F., Vasylyeva, H. V., Mandzyuk, V. I., Bezruka, N. A., & Dmytrotsa, T. V. (2018). The kinetics of adsorption binding of Ba2+ ions by trimethylsilylated silica. Physics and Chemistry of Solid State, 19(1), 66–73. https://doi.org/10.15330/pcss.19.1.66-73
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Review
