Journal
NATURE
Volume 577, Issue 7792, Pages 652-+Publisher
NATURE RESEARCH
DOI: 10.1038/s41586-019-1926-4
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Funding
- US-Israel Binational Science Foundation [2016241]
- ACS Petroleum Research Fund [58693-DNI3]
- US Department of Energy, Office of Basic Energy Sciences [DE-SC-0001861]
- University of California, Santa Barbara
- Tel Aviv University
- Division Of Research On Learning
- Directorate for STEM Education [2016241] Funding Source: National Science Foundation
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The uranyl ion (UO22+; U(vi) oxidation state) is the most common form of uranium found in terrestrial and aquatic environments and is a central component in nuclear fuel processing and waste remediation efforts. Uranyl capture from either seawater or nuclear waste has been well studied and typically relies on extremely strong chelating/binding affinities to UO22+ using chelating polymers(1,2), porous inorganic(3-5) or carbon-based(6,7) materials, as well as homogeneous(8) compounds. By contrast, the controlled release of uranyl after capture is less established and can be difficult, expensive or destructive to the initial material(2,9). Here we show how harnessing the redox-switchable chelating and donating properties of an ortho-substituted closo-carborane (1,2-(Ph2PO)(2)-1,2-C2B10H10) cluster molecule can lead to the controlled chemical or electrochemical capture and release of UO22+ in monophasic (organic) or biphasic (organic/aqueous) model solvent systems. This is achieved by taking advantage of the increase in the ligand bite angle when the closo-carborane is reduced to the nido-carborane, resulting in C-C bond rupture and cage opening. The use of electrochemical methods for uranyl capture and release may complement existing sorbent and processing systems. Redox-switchable chelation is demonstrated for a carborane cluster molecule, leading to controlled chemical or electrochemical capture and release of uranyl in monophasic or biphasic model solvent systems.
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