Behavior of astatine and bismuth in non-conventional solvents: Extraction into imidazolium-based ionic liquid and methyl anthranilate with active pharmaceuticals binary mixtures from nitric acid media

•Astatine and bismuth extraction into imidazolium-based ionic liquid from nitric acid media.•Astatine and bismuth extraction into binary mixtures consisting of active pharmaceuticals and food grade ingredients.•Mechanisms of both astatine and bismuth behavior.•Mathematical modeling is based on eleme...

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Bibliographic Details
Published in:Separation and purification technology 2023-12, Vol.326, p.124715, Article 124715
Main Authors: Tereshatov, Evgeny E., Burns, Jonathan D., Vonder Haar, Amy L., Schultz, Steven J., McIntosh, Lauren A., Tabacaru, Gabriel C., McCann, Laura A., Avila, Geoffrey, Hannaman, Andrew, Hood, Ashley, Lofton, Kylie N., McCarthy, Mallory A., Sorensen, Maxwell, Yennello, Sherry J.
Format: Article
Language:English
Subjects:
Astatine
Bismuth
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Ionic liquid
Low transition temperature mixtures
Mechanism
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Summary:•Astatine and bismuth extraction into imidazolium-based ionic liquid from nitric acid media.•Astatine and bismuth extraction into binary mixtures consisting of active pharmaceuticals and food grade ingredients.•Mechanisms of both astatine and bismuth behavior.•Mathematical modeling is based on elements speciation in nitric acid media.•Estimated separation factors for elements studied suggesting the most optimal choice. Astatine is one of the least chemically studied elements and its behavior in the presence of non-conventional solvents has not been investigated before. This work considers both hydrophobic ionic liquids and binary mixtures as alternatives to conventional solvents. The study is based on the extraction of astatine and bismuth (target material required to produce astatine) into imidazolium-based ionic liquid, and binary mixtures formed by active pharmaceuticals (ibuprofen, lidocaine) and a food-grade ingredient (methyl anthranilate). It is shown that both the ionic liquid and binary mixtures can successfully extract At from nitric acid media, but extraction of Bi into the ionic liquid is very inefficient, resulting in a good separation factor for these two elements in the entire studied acidity range. Extraction of At into binary mixtures is very efficient, having distribution ratio values as high as 1000, while the behavior of Bi under these conditions depends on the composition of the mixture. A mathematical model has been developed to fit both At and Bi experimental data and applied to determine corresponding thermodynamic extraction constants.
ISSN:1383-5866
1873-3794
DOI:10.1016/j.seppur.2023.124715