Selective separation of Am(iii)/Eu(iii) using heterocyclic bistriazolyl phosphonate grafted zirconia and titania solid phase extractants†

RSC Applied Interfaces Pub Date : 2024-11-21 DOI:10.1039/D4LF00277F

O.-M. Hiltunen, T. Suominen, J. Aho, M. Otaki, A. Zupanc, S. Hietala, G. Silvennoinen and R. Koivula

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Abstract

Surface functionalization of metal oxides with phosphonic acid monolayers by covalent bonding enables the generation of robust hybrid materials with enhanced separation properties. Mesoporous crystalline zirconia and titania serve as applicable inorganic supports with high thermal stability and resistance to oxidation, acidity and radiolysis. We have fabricated selective solid phase extractants that efficiently separate americium and europium from each other, via straightforward grafting of the zirconia and titania surfaces with N- and S-donor complexing agents, namely 2,6-bis-triazolyl-pyridine derivatives. Separation factors (Am/Eu) up to 13 were obtained in binary solution at pH 2 and preference for Am over Eu was observed even in Eu excess solution. These stable hybrid materials can be utilized for separation purposes without substantial degradation, providing advantageous reusability and a greener option in comparison to commonly used solvent extraction methods.

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杂环膦酸双三唑接枝氧化锆和氧化钛固相萃取剂†选择性分离Am(iii)/Eu（iii）

金属氧化物的表面功能化与磷酸单层共价键使得生成强大的杂化材料具有增强的分离性能。介孔晶体氧化锆和二氧化钛具有较高的热稳定性和抗氧化、抗酸性和抗辐射分解性，是适用的无机载体。我们制备了选择性固相萃取剂，通过直接将氧化锆和氧化钛表面与N-和s-供体络合剂（即2,6-双三唑吡啶衍生物）接枝，有效地分离镅和铕。在pH为2的二元溶液中，Am/Eu的分离系数高达13，即使在Eu过量溶液中，Am也优于Eu。这些稳定的混合材料可以用于分离目的，而不会发生实质性的降解，与常用的溶剂萃取方法相比，提供了有利的可重复使用性和更环保的选择。

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RSC Applied Interfaces

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