Hydrothermal Syntheses, Structures, and Properties of the New Uranyl Selenites Ag2(UO2)(SeO3)2, M[(UO2)(HSeO3)(SeO3)] (M = K, Rb, Cs, Tl), and Pb(UO2)(SeO3)2

The transition metal, alkali metal, and main group uranyl selenites, Ag2(UO2)(SeO3)2 (1), K[(UO2)(HSeO3)(SeO3)] (2), Rb[(UO2)(HSeO3)(SeO3)] (3), Cs[(UO2)(HSeO3)(SeO3)] (4), Tl[(UO2)(HSeO3)(SeO3)] (5), and Pb(UO2)(SeO3)2 (6), have been prepared from the hydrothermal reactions of AgNO3, KCl, RbCl, CsC...

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Published in:Inorganic chemistry 2002-03, Vol.41 (5), p.1177-1183
Main Authors: Almond, Philip M, Albrecht-Schmitt, Thomas E
Format: Article
Language:English
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Summary:The transition metal, alkali metal, and main group uranyl selenites, Ag2(UO2)(SeO3)2 (1), K[(UO2)(HSeO3)(SeO3)] (2), Rb[(UO2)(HSeO3)(SeO3)] (3), Cs[(UO2)(HSeO3)(SeO3)] (4), Tl[(UO2)(HSeO3)(SeO3)] (5), and Pb(UO2)(SeO3)2 (6), have been prepared from the hydrothermal reactions of AgNO3, KCl, RbCl, CsCl, TlCl, or Pb(NO3)2 with UO3 and SeO2 at 180 °C for 3 d. The structures of 1−5 contain similar [(UO2)(SeO3)2]2- sheets constructed from pentagonal bipyramidal UO7 units that are joined by bridging SeO3 2- anions. In 1, the selenite oxo ligands that are not utilized within the layers coordinate the Ag+ cations to create a three-dimensional network structure. In 2−5, half of the selenite ligands are monoprotonated to yield a layer composition of [(UO2)(HSeO3)(SeO3)]1-, and coordination of the K+, Rb+, Cs+, and Tl+ cations occurs through long ionic contacts. The structure of 6 contains a uranyl selenite layered substructure that differs substantially from those in 1−5 because the selenite anions adopt both bridging and chelating binding modes to the uranyl centers. Furthermore, the Pb2+ cations form strong covalent bonds with these anions creating a three-dimensional framework. These cations occur as distorted square pyramidal PbO5 units with stereochemically active lone pairs of electrons. These polyhedra align along the c-axis to create a polar structure. Second-harmonic generation (SHG) measurements revealed a response of 5× α-quartz for 6. The diffuse reflectance spectrum of 6 shows optical transitions at 330 and 440 nm. The trailing off of the 440 nm transition to longer wavelengths is responsible for the orange coloration of 6.
ISSN:0020-1669
1520-510X
DOI:10.1021/ic0110732