Issue 5, 2021

Syntheses and evaluation of new hydrophilic azacryptands used as masking agents of technetium in solvent extraction processes

Abstract

The extraction of technetium, present in nitric acid medium as pertechnetate anion, is an issue in solvent extraction processes used to recover uranium and plutonium. In the present study, a complexing agent is added in the aqueous nitric acid solution to bind selectively the pertechnetate anion and prevent its extraction into the organic phase or to back extract it in the aqueous phase. Several azacryptands with the addition of hydrophilic groups were synthesized to improve the solubility of the previously studied cage molecule in nitric acid medium. Solvent extraction tests reveal that all the synthesized ligands have a similar complexation strength towards pertechnetate and are able to maintain this anion in the aqueous phase (0.5 M HNO3). These ligands are able to overcome the Hofmeister bias and selectively bind technetium in nitric acid solution. The azacryptand concentration can be increased by a factor of three in the liquid–liquid extraction conditions compared to our previous work. Coordination studies using microcalorimetry, Single Crystal X-Ray Diffraction (SC-XRD), infrared and Raman spectroscopies show the formation of an inclusion complex with hydrogen bonds stabilizing the oxo-anion within the cavity. This solubility improvement is promising for the introduction of this kind of macrocyclic azacryptands in a solvent extraction process.

Graphical abstract: Syntheses and evaluation of new hydrophilic azacryptands used as masking agents of technetium in solvent extraction processes

Supplementary files

Article information

Article type
Paper
Submitted
10 Dec 2020
Accepted
09 Jan 2021
First published
11 Jan 2021

Dalton Trans., 2021,50, 1620-1630

Syntheses and evaluation of new hydrophilic azacryptands used as masking agents of technetium in solvent extraction processes

A. Thevenet, A. Miljkovic, S. La Cognata, C. Marie, C. Tamain, N. Boubals, C. Mangano, V. Amendola and P. Guilbaud, Dalton Trans., 2021, 50, 1620 DOI: 10.1039/D0DT04210B

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