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Alkyl chain length of quaternized SBA-15 and solution conditions determine hydrophobic and electrostatic interactions for carbamazepine adsorption.

Authors :
Kang, Jin-Kyu
Lee, Hyebin
Kim, Song-Bae
Bae, Hyokwan
Source :
Scientific Reports; 3/30/2023, Vol. 13 Issue 1, p1-10, 10p
Publication Year :
2023

Abstract

Santa Barbara Amorphous-15 (SBA) is a stable and mesoporous silica material. Quaternized SBA-15 with alkyl chains (Q<subscript>SBA</subscript>) exhibits electrostatic attraction for anionic molecules via the N<superscript>+</superscript> moiety of the ammonium group, whereas its alkyl chain length determines its hydrophobic interactions. In this study, Q<subscript>SBA</subscript> with different alkyl chain lengths were synthesized using the trimethyl, dimethyloctyl, and dimethyoctadecyl groups (C1Q<subscript>SBA</subscript>, C8Q<subscript>SBA</subscript>, and C18Q<subscript>SBA</subscript>, respectively). Carbamazepine (CBZ) is a widely prescribed pharmaceutical compound, but is difficult to remove using conventional water treatments. The CBZ adsorption characteristics of Q<subscript>SBA</subscript> were examined to determine its adsorption mechanism by changing the alkyl chain length and solution conditions (pH and ionic strength). A longer alkyl chain resulted in slower adsorption (up to 120 min), while the amount of CBZ adsorbed was higher for longer alkyl chains per unit mass of Q<subscript>SBA</subscript> at equilibrium. The maximum adsorption capacities of C1Q<subscript>SBA</subscript>, C8Q<subscript>SBA</subscript>, and C18Q<subscript>SBA</subscript>, were 3.14, 6.56, and 24.5 mg/g, respectively, as obtained using the Langmuir model. For the tested initial CBZ concentrations (2–100 mg/L), the adsorption capacity increased with increasing alkyl chain length. Because CBZ does not dissociate readily (pK<subscript>a</subscript> = 13.9), stable hydrophobic adsorption was observed despite the changes in pH (0.41–0.92, 1.70–2.24, and 7.56–9.10 mg/g for C1Q<subscript>SBA</subscript>, C8Q<subscript>SBA</subscript>, and C18Q<subscript>SBA</subscript>, respectively); the exception was pH 2. Increasing the ionic strength from 0.1 to 100 mM enhanced the adsorption capacity of C18Q<subscript>SBA</subscript> from 9.27 ± 0.42 to 14.94 ± 0.17 mg/g because the hydrophobic interactions were increased while the electrostatic attraction of the N<superscript>+</superscript> was reduced. Thus, the ionic strength was a stronger control factor determining hydrophobic adsorption of CBZ than the solution pH. Based on the changes in hydrophobicity, which depends on the alkyl chain length, it was possible to enhance CBZ adsorption and investigate the adsorption mechanism in detail. Thus, this study aids the development of adsorbents suitable for pharmaceuticals with controlling molecular structure of QSBA and solution conditions. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20452322
Volume :
13
Issue :
1
Database :
Complementary Index
Journal :
Scientific Reports
Publication Type :
Academic Journal
Accession number :
162802233
Full Text :
https://doi.org/10.1038/s41598-023-32108-3