Molecular engineering of cationic polymer networks for enhanced (TcO4-)-Tc-99/ReO4- removal efficiency in extreme environments
MATERIALS CHEMISTRY AND PHYSICS(2023)
Abstract
Removal of 99TcO4 ? from the nuclear fuel cycle remains a great challenge due to the harsh environment such as strong acid/alkali. Here, a methyl-rich cationic polymer network (TBT-TCB) was obtained by molecular engineering and used for 99TcO4 ? removal in extreme environments. The bulk methyl groups in the vicinity of imidazole units greatly enhance the base-resistance of TBT-TCB owing to the steric hindrance and electronic effects, which avoid OH- induced imidazole ring-opening reactions, resulting in a ReO4 ? (a surrogate of 99TcO4 ? ) removal efficiency of 85% under 1 M NaOH. Meanwhile, the introduction of methyl groups into TBT-TCB enhances its hydrophobicity, resulting in improved affinity for the larger and less hydrophilic 99TcO4 . Consequently, TBT-TCB exhibits high removal efficiency even in the presence of strong competing ions, achieving a remarkable 84% removal rate in 1 M H2SO4. More importantly, TBT-TCB shows excellent robustness and reusability (>5 cycles), high absorption selectivity, and rapid adsorption kinetics for 99TcO4 ?/ReO4 ? . Furthermore, chromatographic column experiments with TBT-TCB have shown their great potential for industrial applications.
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Key words
Sorption, Selectivity, 99TcO4-, Imidazoles, Cationic polymeric networks
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