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A direct hydrogen-1, carbon-13, and nitrogen-15 NMR study of lutetium(III)-isothiocyanate complexation in aqueous solvent mixtures

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Abstract

A direct, low-temperature hydrogen-1, carbon-13, and nitrogen-15 nuclear magnetic resonance study of lutetium(III)-isothiocyanate complex formation in aqueous solvent mixtures has been completed. At −100°C to −120°C in water-acetone-Freon mixtures, ligand exchange is slowed sufficiently to permit the observation of separate1H,13C, and15N NMR signals for coordinated and free water and isothiocyanate ions. In the13C and15N spectra of NCS, resonance signals for five complexes are observed over the range of concentrations studied. The13C chemical shifts of complexed NCS varied from −0.5 ppm to −3 ppm from that of free anion. For the same complexes, the15N chemical shifts from free anion were about −11 ppm to −15 ppm. The magnitude and sign of the15N chemical shifts identified the nitrogen atom as the binding site in NCS. The concentration dependence of the13C and15N signal areas, and estimates of the fraction of anion bound at each NCS:Lu3+ mole ratio, were consistent with the formation of [(H2O)5Lu(NCS)]2+ through [(H2O)Lu(NCS)5]2−. Although proton and/or ligand exchange and the resulting bulk-coordinated signal overlap prevented accurate hydration number measurements, a good qualitative correlation of the water1H NMR spectral results with those of13C and15N was possible.

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Authors and Affiliations

  1. Department of Chemistry and Biochemistry, California State University, Los Angeles, 90032, Los Angeles, California

    A. Fratiello, V. Kubo-Anderson, E. Bolanos, R. D. Perrigan, L. Saenz & S. M. Stoll

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  1. A. Fratiello
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  2. V. Kubo-Anderson
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  3. E. Bolanos
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  4. R. D. Perrigan
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  5. L. Saenz
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  6. S. M. Stoll
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Fratiello, A., Kubo-Anderson, V., Bolanos, E. et al. A direct hydrogen-1, carbon-13, and nitrogen-15 NMR study of lutetium(III)-isothiocyanate complexation in aqueous solvent mixtures. J Solution Chem 25, 1071–1082 (1996). https://doi.org/10.1007/BF00972922

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