AI Article Synopsis
- The study highlights the challenges in creating radioactive compounds, including toxicity, high costs, and limited availability of isotopes.
- Using polyoxometalates (POMs), researchers developed a method that allows them to create and study metal-ligand complexes with just microgram amounts of rare isotopes, like curium.
- The research demonstrated distinct differences in the chemistry of these complexes through various analytical techniques, suggesting that this new approach could help isolate even rarer radioactive elements.
Article Abstract
The synthesis and study of radioactive compounds are both inherently limited by their toxicity, cost and isotope scarcity. Traditional methods using small inorganic or organic complexes typically require milligrams of sample-per attempt-which for some isotopes is equivalent to the world's annual supply. Here we demonstrate that polyoxometalates (POMs) enable the facile formation, crystallization, handling and detailed characterization of metal-ligand complexes from microgram quantities owing to their high molecular weight and controllable solubility properties. Three curium-POM complexes were prepared, using just 1-10 μg per synthesis of the rare isotope Cm, and characterized by single-crystal X-ray diffraction, showing an eight-coordinated Cm centre. Moreover, spectrophotometric, fluorescence, NMR and Raman analyses of several f-block element-POM complexes, including Am and Cm, showed otherwise unnoticeable differences between their solution versus solid-state chemistry, and actinide versus lanthanide behaviour. This POM-driven strategy represents a viable path to isolate even rarer complexes, notably with actinium or transcalifornium elements.
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| http://dx.doi.org/10.1038/s41557-022-01018-8 | DOI Listing |
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