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Site differentiation strategy for selective strontium uptake and elution within an all-inorganic polyoxoniobate framework

Yixin Liu, Ping‐Xin Wu, Jing‐Yi Dai, Pingwei Cai, Cai Sun, Shou‐Tian Zheng

2024Nature Communications17 citationsDOIOpen Access PDF

Abstract

Selective uptake and elution of trace amounts of hazardous radioactive 90Sr from large-scale high-level liquid waste (HLW) is crucial for sustainable development. Here, we propose a site differentiation strategy, based on the presence of distinct selective metal capture sites (concavity site and tweezer site) within the giant polyoxoniobate (PONb) nanoclusters of an all-inorganic PONb framework (FZU-1). Through this strategy, FZU-1 can not only effectively remove 98.9% of Sr²⁺ from simulated nuclear liquid waste, performing best among the reported Sr adsorbents, but also achieve desorption of adsorbed Sr²⁺ ions by selectively loading Na⁺ ions, thus enabling the recycling of FZU-1. Based on the well-defined single-crystal structures and theoretical studies, it can be revealed that the rapid and selective uptake of Sr²⁺ is attributed to the strong binding energy between the Sr²⁺ ions and the concavity sites. The effective elution of Sr²⁺, on the other hand, stems from the preferential binding of Na⁺ ions at the tweezer sites, elevating the cluster’s electrostatic potential and indirectly facilitating the elution of Sr²⁺ ions. The exceptional stability of FZU-1, along with its rapid and selective Sr²⁺ capture and elution capabilities, positions it as a promising candidate for large-scale nuclear waste treatment and groundwater remediation applications. Here, the authors propose a site differentiation strategy in ion exchange, that is, functional materials with different adsorption sites for specific metal ions can achieve efficient uptake and elution of specific ions (e.g., Sr2+ ion in this work).

Topics & Concepts

StrontiumElutionChemistryEnvironmental chemistryChromatographyOrganic chemistryChemical Synthesis and CharacterizationRadioactive element chemistry and processingMetal-Organic Frameworks: Synthesis and Applications