Kent D. Abney scite author profile

Pu L(3) X-ray near edge absorption spectra for Pu(0-VII) are reported for more than 60 chalcogenides, chlorides, hydrates, hydroxides, nitrates, carbonates, oxy-hydroxides, and other compounds both as solids and in solution, and substituted in zirconolite, perovskite, and borosilicate glass. This large database extends the known correlations between the energy and shape of these spectra from the usual association of the XANES with valence and site symmetry to higher order chemical effects. Because of the large number of compounds of these different types, a number of novel and unexpected behaviors are observed, such as effects resulting from the medium and disorder that can be as large as those from valence.

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Synthesis and Structural Characterization of the First Quaternary Plutonium Thiophosphates: K₃Pu(PS₄)₂ and APuP₂S₇ (A = K, Rb, Cs)

Hess

Gordon

Tait

et al. 2002

J. Am. Chem. Soc.

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The first quaternary plutonium metal thiophosphates have been synthesized by the reactive flux method and characterized by single-crystal X-ray diffraction: K(3)Pu(PS(4))(2) (I), KPuP(2)S(7) (II), RbPuP(2)S(7) (III), and CsPuP(2)S(7) (IV). All four compounds crystallize in the monoclinic space group P2(1)/c with Z = 4. Compound I has cell parameters of a = 9.157(1) A, b = 16.866(2) A, c = 9.538(1), and beta = 90.610(3)degrees. Compound II has cell parameters of a = 9.641(1) A, b = 12.255(1) A, c = 9.015(1) A, and beta = 90.218(1)degrees. Compound III has cell parameters of a = 9.8011(6) A, b = 12.3977(7) A, c = 9.0263(5) A, and beta = 90.564(1)degrees. Compound IV has cell parameters of a = 10.1034(7) A, b = 12.5412(9) A, c = 9.0306(6) A, and beta = 91.007(1)degrees. Compound I is isostructural to a family of rare-earth metal thiophosphates and comprises bicapped trigonal prismatic PuS(8) polyhedra linked in chains through edge-sharing interactions and through thiophosphate tetrahedra. Compounds II-IV crystallize in a known structure type not related to any previously observed actinide thiophosphates and contain the (P(2)S(7))(4-) corner-shared bitetrahedral ligand as a structural building block. A summary of important bond distances and angles for these new plutonium thiophosphate materials is compared to the limited literature on plutonium solid-state compounds. Diffuse reflectance spectra confirm the Pu(III) oxidation state and Raman spectroscopy confirms the tetrahedral PS(4)(3-) building block in all structures.

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Kent D. Abney

Higher Order Speciation Effects on Plutonium L₃ X-ray Absorption Near Edge Spectra

Synthesis and Structural Characterization of the First Quaternary Plutonium Thiophosphates: K₃Pu(PS₄)₂ and APuP₂S₇ (A = K, Rb, Cs)

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Kent D. Abney

Higher Order Speciation Effects on Plutonium L3 X-ray Absorption Near Edge Spectra

Synthesis and Structural Characterization of the First Quaternary Plutonium Thiophosphates: K3Pu(PS4)2 and APuP2S7 (A = K, Rb, Cs)

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Higher Order Speciation Effects on Plutonium L₃ X-ray Absorption Near Edge Spectra

Synthesis and Structural Characterization of the First Quaternary Plutonium Thiophosphates: K₃Pu(PS₄)₂ and APuP₂S₇ (A = K, Rb, Cs)