The tetramethylammonium counterion was used to suppress formation of insoluble uranate salts, M2U2O7, and allow for a detailed structural and spectroscopic characterization of UO2(OH)(n)(2-n) (n = 4, 5) under highly alkaline aqueous solution conditions. Single crystals of [Co(NH3)(6)](2)[UO2(OH)(4)](3). H2O were obtained by cooling a dilute solution of Co(NH3)(6)Cl-3 and UO2(NO3)(2). 6H(2)O in 3.5 M (Me4N)OH to 5 degrees C. The asymmetric unit contains three distinct UO2(OH)(4)(2-) ions, each displaying a pseudo-octahedral coordination geometry with trans oxo ligands. The three independent UO2(OH)(4)(2-) ions in the unit cell give average U=O and U-OH distances of 1.82(1) and 2.26(2) Angstrom, respectively. EXAFS data on solid [Co(NH3)(6)](2)[UO2(OH)(4)](3). H2O and aqueous UO22+ in 3.5 M (Me4N)OH solution were collected at the U L-III edge, and the resulting radial distribution function shows a single asymmetric peak. For the solid and solution, curve fitting reveals two near neighbors. For the crystalline solid, the first shell was fit with two O atoms at a distance of 1.81(1) Angstrom, and the second shell was fit with 3.9(5) O atoms at a distance of 2.21(1) Angstrom. For the solution sample, the first shell contains two O atoms with a U=O distance of 1.79(1) Angstrom, and the second O shell was fit with 5.2(5) O atoms at a U-O distance of 2.22(1) Angstrom. The bond distances for both the solution and solid state samples correspond relatively well with the single-crystal diffraction data; however, the second-shell coordination number is larger in solution than in the solid state, indicating a greater number of OH ligands in solution than in the solid state. Both EXAFS and X-ray diffraction analyses reveal relatively long axial U=O and short equatorial U-OH bonds. Raman spectra of single crystals of [Co(NH3)(6)](2)[UO2(OH)(4)](3). H2O reveal a symmetrical O=U=O stretch at 796 cm(-1), 74 cm(-1) lower than that for the uranyl aquo ion. In solution, the symmetrical O=U=O stretch is at 786 cm(-1), 10 cm(-1) lower than observed in the solid state. O-18 enrichment produces a shift to 752 cm(-1) confirming the assignment in solution. Luminescence spectroscopy recorded as a function of hydroxide ion concentration reveals that an equilibrium exists between two species, assigned to UO2(OH)(4)(2-) and UO2(OH)(5)(3-). The vibronic structure of the luminescence bands was used to determine a vibrational energy of 790 cm(-1) for UO2(OH)(5)(3-) to confirm its assignment. O-17 NMR and O-16/O-18 Raman spectroscopies also reveal an unprecedented facile ligand exchange between U=O and bulk solvent oxygen atoms. Line-broadening analysis of the O-17 NMR data provide activation parameters of Delta H double dagger = 9.8 +/- 0.4 kcal/mol, Delta S double dagger = -18 +/- 6 cal/mol.K, and k(ex)(298K) = 45 +/- 15 s(-1). Crystal data for [Co(NH3)(6)](2)[UO2(OH)(4)](3). H2O: monoclinic space group C2/c, a = 17.4130(4) Angstrom, b = 12.1794(3) Angstrom, c = 15.3721(4) Angstrom, beta = 120.384(1)degrees, Z = 4, R1 = 0.0313, wR2 = 0.0734.
