期刊
INORGANIC CHEMISTRY
卷 49, 期 14, 页码 6428-6435出版社
AMER CHEMICAL SOC
DOI: 10.1021/ic902496u
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资金
- Deutsche Forschungsgemeinschaft (DFG)
- BMWi [02E9985]
- ROBL
The bis(salicylhydroxamato) and bis(benzohydroxamato) complexes of UO22+ in aqueous solution have been investigated in a combined experimental and computational effort using extended X-ray absorption fine structure and UV-vis spectroscopy and density functional theory (DFT) techniques, respectively. The experimentally unknown bis(benzoate) complex of UO22+ was investigated computationally for comparison. Experimental data indicate 5-fold UO22+ coordination with mean equatorial U-O distances of 2.42 and 2.40 angstrom for the salicyl- and benzohydroxamate systems, respectively. DFT calculations on microsolvated model systems [UO2L2OH2] indicate UO22+ eta(2)-chelation via the hydroxamate oxygen atoms in excellent agreement with experimental data; calculated complex stabilities support that UO22+ prefers hydroxamate over carboxylate coordination. The 414 nm absorption band of UO22+ in aqueous solution is blue-shifted to 390 and 386 nm upon complexation by salicyl- and benzohydroxamate, respectively. Calculated time-dependent DFT excitation energies of [UO2L2OH2], however, occasionally fail to reproduce accurately experimental UV-vis spectra, which are dominated by UO22+ <- L- charge-transfer contributions. We additionally show that the U-VI large-core pseudopotential approximation recently developed by some of the authors can routinely be applied for electronic structure calculations not involving uranium 5f occupations significantly different from U-VI.
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