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Thermally immobilized cellulose acetate butyrate on silica particles as stationary phase for high-performance liquid chromatography.

Created on 17 Sep 2025

Authors

Isabela Sayuri Ambrosio, Aline Stéffani Silva, Allyson Leandro R Santos, Rosana Maria N Assunção, Anizio Marcio DE Faria

Published in

Anais da Academia Brasileira de Ciencias. Volume 97. Issue 3. Pages e20241225. Epub Sep 15, 2025.

Abstract

Reversed-phase liquid chromatography is the most widely used analytical technique nowadays. However, it generates a large volume of toxic organic residues and presents poor separations of small polar molecules in traditional stationary phases. In this work, cellulose acetate butyrate was synthesized and used as a reversed-phase coating for separating compounds using highly aqueous mobile phases, reducing organic solvent consumption and minimizing the supra-cited problems. Cellulose acetate butyrate presented a degree of substitution of 0.65 (±0.05) by 1H nuclear magnetic resonance, resulting in hydrophilic and hydrophobic groups in the polymer. The stationary phases were characterized physicochemically by infrared spectroscopy, indicating the polymer attachment on the silica surface with 180 m2 g-1 of surface area and 22 nm of mean pore size. The stationary phase was column-packed and chromatographically characterized by separating the Tanaka mixtures. These separations occurred in reversed-phase mode with hydrophobic and hydrophilic interactions related to the acetate/butyrate and hydroxyl groups from the cellulose derivative. The stationary phase showed unique selectivity for separating small polar molecules with 90 % water in mobile phases. Cellulose acetate butyrate stationary phases can potentially separate polar compounds that require high water contents, making reversed-phase liquid chromatography closer to the Principles of Green Chemistry.

PMID:
40960767
Bibliographic data and abstract were imported from PubMed on 17 Sep 2025.

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