Hydrothermal reactions of uranyl nitrate and 4,4’-oxidiphthalic acid(H_4L) resulted in the formation of three new uranyl-organic framework materials,namely(NH_4)_2[(UO_2)_3(L)_2]·5H_2O(1),(NEt_4)[(UO_2)_3(H_2O)(L)(HL)](2) and(UO_2)_7(H_2O)_2(phen)_4(L)_2(HL)_2(3)(NEt_4 = tetraethylammonium,phen = 1,10-phenanthroline).These three structures all comprise common uranyl pentagonal bipyramids.In 1,UO_7polyhedra are linked by hexadentate ligands to form a 3D framework with 1D channels,in which are located NH_4~+ ions and water molecules.While in 2,the organic ligands adopt pentadentate and hexadentate coordination modes,ligating UO_7 units to create a layered structure with channels filled by NEt_4~+ ions.For 3,uranyl square bipyramids are also accommodated together with pentagonal bipyramids,which are linked by tetradentate carboxylate ligands to produce the layered assembly.Phen molecules also coordinate to the uranyl centers to build up the structure.Luminescent studies indicate that 2 and 3 exhibit the characteristic uranyl emission. Hydrothermal reactions of uranyl nitrate and 4,4’-oxidiphthalic acid (H_4L) resulted in the formation of three new uranyl-organic frameworks, namely (NH_4) _2 [(UO_2) _3 (L) (NEt_4) [(UO_2) _3 (H_2O) (HL)] (2) and (UO_2) _7 (H_2O) _2 (phen) _4 (L) _2 (HL) _2 (NEt_4 = tetraethylammonium, phen = 1,10-phenanthroline. These three structures all comprise common uranyl pentagonal bipyramids. In 1, UO_7polyhedra are linked by hexadentate ligands to form a 3D framework with 1D channels, which are located at NH_4 ~ + ions and water molecules. Whh in 2, the organic ligands pentadentate and hexadentate coordination modes, ligating UO_7 units to create a layered structure with channels filled by NEt_4 ~ + ions. For 3, uranyl square bipyramids are also housed together with pentagonal bipyramids, which are linked by tetradentate carboxylate ligands to produce the layered assembly. Phen molecules also coordinate to the uranyl centers to build up the structure. Luminescent studies indicate that 2 a nd 3 exhibit the characteristic uranyl emission.