Richard E. Wilson scite author profile

Three polynuclear thorium(IV) molecular complexes have been synthesized under ambient conditions from reactions of an amorphous Th precipitate, obtained via hydrolysis, with carboxylate functionalized ligands. The structures of Th(6)(OH)(4)O(4)(H(2)O)(6)(HCO(2))(12)·nH(2)O (1), Th(6)(OH)(4)O(4)(H(2)O)(6)(CH(3)CO(2))(12)·nH(2)O (2), Th(6)(OH)(4)O(4)(H(2)O)(6)(ClCH(2)CO(2))(12)·4H(2)O (3) each consist of a hexanuclear Th core wherein six 9-coordinate Th(IV) cations are bridged by four μ(3)-hydroxo and four μ(3)-oxo groups. Each Th(IV) center is additionally coordinated to one bound "apical" water molecule and four oxygen atoms from bridging carboxylate functionalized organic acid units. "Decoration" of the cationic [Th(6)(μ(3)-O)(4)(μ(3)-OH)(4)](12+) cores by anionic shells of R-COO(-) ligands (R = H, CH(3), or CH(2)Cl) terminates the oligomers and results in the formation of discrete, neutral molecular clusters. Electronic structure calculations at the density functional theory level predicted that the most energetically favorable positions for the protons on the hexanuclear core result in the cluster with the highest symmetry with the protons separated as much as possible. The synthesis, structure, and characterization of the materials are reported.

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The Curium Aqua Ion

Skanthakumar

et al. 2007

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The coordination environment of the hydrated Cm3+ ion is probed both in the solid state and in solution. The analysis of single-crystal X-ray diffraction data from [Cm(H2O)9](CF3SO3)3 determines that the Cm species is surrounded by nine coordinating waters with a tricapped-trigonal-prismatic geometry involving six short Cm-O distances at 2.453(1) A and three longer Cm-O distances at 2.545(1) A. The Cm nona-aqua triflate is isostructural with the series of lanthanide and actinide [R(H2O)9](CF3SO3)3 (R=La-Lu, Pu) compounds. A similar nona-aqua geometry is seen for the coordination environment of Cm in aqueous solution, as probed by high-energy X-ray scattering and extended X-ray absorption fine structure spectroscopy, although the splitting in the first coordination shell is increased from 0.092(2) in the solid to 0.16(2) A in solution. This increase in splitting of the Cm-water distances in the first coordination sphere is discussed in terms of its potential relevance to the previously observed decrease in coordinating waters with decreasing ionic radius about the f-ion in solution.

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Structure of the Homoleptic Thorium(IV) Aqua Ion [Th(H₂O)₁₀]Br₄

et al. 2007

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Separation of Plutonium Oxide Nanoparticles and Colloids

2011

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Oil and vinegar: Colloidal plutonium is an important component of Pu aqueous speciation. Pu colloids are problematic in nuclear separations and are a potential transport vector in the environment. Using a mixture of n‐octanol and trichloroacetic acid a selective and reversible separation of these particles can be achieved by exploiting their surface reactivity. Picture: Li2[Pu38O56Cl42(H2O)20]⋅15 H2O.

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Richard E. Wilson

The Structure of the Plutonium Oxide Nanocluster [Pu₃₈O₅₆Cl₅₄(H₂O)₈]¹⁴⁻

Thorium(IV) Molecular Clusters with a Hexanuclear Th Core

The Curium Aqua Ion

Structure of the Homoleptic Thorium(IV) Aqua Ion [Th(H₂O)₁₀]Br₄

Separation of Plutonium Oxide Nanoparticles and Colloids

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Richard E. Wilson

The Structure of the Plutonium Oxide Nanocluster [Pu38O56Cl54(H2O)8]14−

Thorium(IV) Molecular Clusters with a Hexanuclear Th Core

The Curium Aqua Ion

Structure of the Homoleptic Thorium(IV) Aqua Ion [Th(H2O)10]Br4

Separation of Plutonium Oxide Nanoparticles and Colloids

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Product

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The Structure of the Plutonium Oxide Nanocluster [Pu₃₈O₅₆Cl₅₄(H₂O)₈]¹⁴⁻

Structure of the Homoleptic Thorium(IV) Aqua Ion [Th(H₂O)₁₀]Br₄