Structural Diversity of Bipyridinium-Based Uranyl Coordination Polymers: Synthesis, Characterization, and Ion-Exchange Application

As well-known functional groups with excellent electro/photochromic and ion-exchange properties, bipyridinium motifs have been used in functionalized metal-organic coordination polymers, but they are still rarely applied to construct actinide coordination polymers. In this work, we utilized a bipyridinium-based carboxylic acid, 1,1'-bis(4-carboxyphenyl)-4,4'-bipyridinium bis(chloride) ([H(2)bcbp]Cl-2), as the organic ligand to assemble with uranyl cations. By the introduction of different kinds of auxiliary ligands and adjustment of the pH, five novel uranyl coordination compounds, 1-5, have been synthesized through hydro thermal reactions. Starting from uranyl ions and terephthalic acid (H2TP) and H(2)bcbp ligands, [(UO2)(2)(bcbp)(TP)(2)]center dot 3H(2)O (1) has a wave-shaped two-dimensional (2D) structure consisting of dinuclear units connected by terephthalate linkers and further supported by the longer H(2)bcbp ligands. [(UO2)(2)(bcbp)(PA)(2)]center dot 4H(2)O (2) has a zigzag chain of dimeric uranium units, and [(UO2)(2)(bcbp)(bpdc)(2)]center dot 5H(2)O (3) forms a one-dimensional ribbonlike structure. The 2D structures of [(UO2)(2)(bcbp)(OH)(H2O)]center dot Cl (4) and [(UO2)(bcbp)Cl]center dot Cl (5) are similar, both of which are constructed from dinuclear uranyl units and bcbp2-ligands. Furthermore, the performance for perrhenate removal of compound 4 with a cationic framework is assessed, and we found that compound 4 can efficiently remove ReO4- from an aqueous solution in a wide range of pH values. This work extends the library of viologen derivative-based uranyl coordination polymers, provides to some extent broader insights into actinide coordination chemistry of functionalized ligands, and may facilitate the ion-exchange applications of related coordination polymers.