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Accessing five oxidation states of uranium in a retained ligand framework.


ABSTRACT: Understanding and exploiting the redox properties of uranium is of great importance because uranium has a wide range of possible oxidation states and holds great potential for small molecule activation and catalysis. However, it remains challenging to stabilise both low and high-valent uranium ions in a preserved ligand environment. Herein we report the synthesis and characterisation of a series of uranium(II-VI) complexes supported by a tripodal tris(amido)arene ligand. In addition, one- or two-electron redox transformations could be achieved with these compounds. Moreover, combined experimental and theoretical studies unveiled that the ambiphilic uranium-arene interactions are the key to balance the stabilisation of low and high-valent uranium, with the anchoring arene acting as a δ acceptor or a π donor. Our results reinforce the design strategy to incorporate metal-arene interactions in stabilising multiple oxidation states, and open up new avenues to explore the redox chemistry of uranium.

SUBMITTER: Deng C 

PROVIDER: S-EPMC10400547 | biostudies-literature | 2023 Aug

REPOSITORIES: biostudies-literature

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Accessing five oxidation states of uranium in a retained ligand framework.

Deng Chong C   Liang Jiefeng J   Sun Rong R   Wang Yi Y   Fu Peng-Xiang PX   Wang Bing-Wu BW   Gao Song S   Huang Wenliang W  

Nature communications 20230803 1


Understanding and exploiting the redox properties of uranium is of great importance because uranium has a wide range of possible oxidation states and holds great potential for small molecule activation and catalysis. However, it remains challenging to stabilise both low and high-valent uranium ions in a preserved ligand environment. Herein we report the synthesis and characterisation of a series of uranium(II-VI) complexes supported by a tripodal tris(amido)arene ligand. In addition, one- or two  ...[more]

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