V. Kubo-Anderson scite author profile

A competitive solvation study of Al(II1) in water-dimethylfnrmamide (DMF) and water-urea mixtures was carried out by 'H and 27AI NMH spectroscopy. At temperatures low enough to slow proton and ligand exchange, separate 'H resonance signals were observed for bulk and coordinated ligand molecules, and for "A1 in different solvation complexes. The 'H NMR data confirmed hexacoordination of AI(II1) at all concentrations, monodentate binding at the oxygen atom of both DMF and urea, preferential solvation by both organic ligands, the presence of steric hindrance to complexation, particularly by DMF, and the identification of the complexes responsible for the Z7AI spectra. It also showed a eon-eguivalence of the amido groups in urea, in both the complex and free states, presumably owing to hindered rotation about the carbowxggen bond. In contrast to previous reports, the "A1 spectra for the water-DMF and water-urea solutions showed well resolved signals for the s p i e s [Al(H20),,-6Ln]3+ (n = 0-6; L = DMF or urea), including two isomers for one of the water-urea complexes. The Z7AI NMR data reflected the stronger preferential solvation by urea.

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V. Kubo-Anderson

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V. Kubo-Anderson

A Hydrogen-1, Nitrogen-15, and Yttrium-89 NMR-Study of Yttrium(III)-Isothiocyanate Complexes in Aqueous Solvent Mixtures

A direct nitrogen-15 NMR study of cerium(III)-nitrate complexes in aqueous solvent mixtures

Untitled

A direct carbon-13 and nitrogen-15 NMR study of europium(III) complexation-nitrate and europium(III)-isothiocyanate complexation in aqueous solvent mixtures

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Hydrogen‐1 and aluminum‐27 NMR study of Al(ClO₄)₃ in aqueous mixtures of dimethylformamide and urea