Removal of Acetaminophen (Paracetamol) from Water Using Aqueous Two-Phase Systems (ATPSs) Composed of Choline-Amino Acid Ionic Liquids

Removal of Acetaminophen (Paracetamol) from Water Using Aqueous Two-Phase Systems (ATPSs) Composed of Choline-Amino Acid Ionic Liquids

Emerging contaminants, such as pharmaceutical compounds, are often bioaccumulative and can have toxic effects on the environment; therefore, there is a need to find efficient techniques to extract these hazardous species from water bodies. In this work, five aqueous two-phase systems (ATPSs) compose...

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Bibliographic Details
Published in:Journal of chemical and engineering data Vol. 69; no. 1; pp. 215 - 226
Main Authors: Barroca, Leonor R., Velho, Pedro, Macedo, Eugénia A.
Format: Journal Article
Language:English
Published: American Chemical Society 11-01-2024
Subjects:
Liquid-Liquid Equilibria and Vapor-Liquid-Liquid Equilibria
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Summary:Emerging contaminants, such as pharmaceutical compounds, are often bioaccumulative and can have toxic effects on the environment; therefore, there is a need to find efficient techniques to extract these hazardous species from water bodies. In this work, five aqueous two-phase systems (ATPSs) composed of choline-amino acid ionic liquids (CAAILs) and phosphate salts were studied to remove acetaminophen (a common active pharmaceutical ingredient, API), constituting a sustainable extraction approach. The CAAILs cholinium l-alaninate ([Ch]­[Ala]), cholinium glycinate ([Ch]­[Gly]), cholinium leucinate ([Ch]­[Leu]), and cholinium l-serinate ([Ch]­[Ser]) were successfully synthesized, and their chemical structures were confirmed by infrared spectroscopy and density measurements. Partitions of acetaminophen were performed in the systems {[Ch]­[Ala] or [Ch]­[Gly] or [Ch]­[Ser] (1) + K2HPO4 (2) + water (3)} and {[Ch]­[Ala] or [Ch]­[Leu] (1) + K3PO4 (2) + water (3)}, at 298.15 K and 0.1 MPa. Of these, four ATPSs showed good results in the extraction of acetaminophen: {[Ch]­[Ala] or [Ch]­[Gly] (1) + K2HPO4 (2) + water (3)} and {[Ch]­[Ala] or [Ch]­[Leu] (1) + K3PO4 (2) + water (3)}. Acetaminophen migrated preferentially to the top (IL-rich) phase, obtaining partition coefficients (K) higher than unity and extraction efficiencies (E) larger than 90%. The most promising extraction efficiencies (E) were attained for the largest tie-line lengths (TLLs) of {[Ch]­[Ala] or [Ch]­[Gly] (1) + K2HPO4 (2) + water (3)}, with E = 97.5% for TLL = 82.18 m % and E = 79.3% for TLL = 85.05 m %, respectively, while {[Ch]­[Ala] or [Ch]­[Leu] (1) + K3PO4 (2) + water (3)} only obtained E = 97.9% for TLL = 75.35 m % and E = 97.50% for TLL = 85.23 m %, respectively.
ISSN:0021-9568
1520-5134
DOI:10.1021/acs.jced.3c00602