cg5b00427_si_002.cif (127.61 kB)

From Two-Dimensional Layers to Three-Dimensional Frameworks: Expanding the Structural Diversity of Uranyl Compounds by Cation–Cation Interactions

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posted on 05.08.2015, 00:00 by Bin Xiao, Hartmut Schlenz, Jakob Dellen, Dirk Bosbach, Evgeny V. Suleimanov, Evgeny V. Alekseev
Two uranyl tungstates, Cs4[(UO2)4­(WO5)­(W2O8)­O2] (CsUW-1) and Cs4[(UO2)7­(WO5)3O3] (CsUW-2), were obtained via the high-temperature solid-state synthesis method by reacting uranyl nitrate with WO3 in the presence of cesium nitrate. CsUW-1 crystallizes in space group P21/n, adopting a two-dimensional (2D) sheet structure. CsUW-2 forms a three-dimensional (3D) framework constructed by complex 2D sheets linked by cation–cation interactions of UO22+ groups. The cation–cation interactions fragment presented in CsUW-2 involves the 2D → 3D transformation of the uranyl tungstate network and acts as an intermediate part by bridging the structures of CsUW-1 and CsUW-2. We demonstrate that the chemical and structural transformation from CsUW-1 to CsUW-2 is possible via adding a suitable amount of UO3 oxide. In addition, the differential scanning calorimetry-thermogravimetric technique was carried out to gain insight into the thermal behavior of the synthesized compounds. Raman spectra of titled compounds were obtained and analyzed for signature peaks.