Other
Scientific paper
Jul 1995
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1995gecoa..59.2651f&link_type=abstract
Geochimica et Cosmochimica Acta, vol. 59, Issue 13, pp.2651-2661
Other
2
Scientific paper
Aluminum-27 ( 27 Al) nuclear magnetic resonance (NMR) spectroscopy was used to characterize Al(III)-hydroxo complexes, in aqueous solutions with total Al(III) concentrations of 1.0-10 M, using a custom-built NMR probe, coil, and sample bottle with low background aluminum impurities. Published 27 Al NMR spectroscopy studies have traditionally used total Al(III) concentrations that are generally outside the range of geochemical interest (total [ Al(III) l 1000 M). In this study, lower Al(III) concentrations ( 10 M) were used to more closely approximate natural conditions, while allowing the measurement of mononuclear Al(III) species by 27 Al NMR spectroscopy. The sensitivity of the 27 Al NMR spectroscopy system, as measured by the signal-to-noise ratio (S/N), is S/N = 5 for 1.0 M Al(III) at pH 2.00 and S/N = 3 for 10 M Al(III) at pH 5.20. This level of sensitivity is within the range of geochemically relevant Al(III) concentrations found in slightly acidic natural waters. Quantitative models are developed which link observations of NMR chemical shifts and linewidth ratios to the calculated equilibrium speciation of mononuclear Al(III) for 10 M Al(III) solutions at pH values 2.00 to 5.20 (prepared by titrating acidic AI(III) solutions with pyridine). Linear-regression best fits of the models to the NMR data are used to determine the intrinsic chemical shifts and linewidths of individual mononuclear Al(III) species. The intrinsic chemical shift of each Al(III) species " i ", i (ppm), is (1) Al 3+ 0 for Al 3+ (defined by convention), (2) Al(OH) 2+ = 3.5 (SE = 1.3, N = 10) for Al(OH) 2+ , (3) Al(OH) 2 + 3.7 (SE = 1.4, N = 10) for Al(OH) 2 + , and (4) Al(OH) 4 - = 79.9 (SE = 0.03, N = 4) for Al(OH) 4 - ; where positive chemical shifts are "downfield," SE = standard error, and N = number of samples. A convention is delineated in which the linewidth of the Al(III) species/peak of interest is normalized with respect to that of a reference species (Al 3+ ) under the same conditions. Such linewidth ratios are independent of investigation-specific variables such as solution viscosity and temperature. Due to the large sample volume (18.8 mL) used here to achieve increased sensitivity, there is some line broadening caused by magnetic field inhomogeneities; however, this line broadening is constant and reproducible both during and between experimental runs, and it was corrected for in the determination of linewidths of individual Al(III) species. For an absolute linewidth of LW Al 3+ = 1.6 Hz for Al 3+ , the linewidth ratio (ppm/ppm) of each species " i ", (LW i )/(LW Al 3+ ), is: (1) (LW Al 3+ )/(LW Al 3+ ) 1 for Al 3+ (by definition), (2) LW Al(OH) 2+ /(LW Al 3+ ) = 495 (SE = 11, N = 8) for Al(OH) 2+ , and (3) (LW Al(OH) 2 + )/LW Al 3+ = 450 (SE = 140, N = 10) for Al(OH) 2 + . The increased sensitivity of this system, and the knowledge of intrinsic 27 Al NMR spectroscopic parameters for Al 3+ , Al(OH) 2+ , Al(OH) 2 + , and Al(OH) 4 - , sets the stage for use of 27 Al NMR spectroscopy to characterize these species in natural waters and to study other Al(III) species of geochemical interest.
Browne Bryant A.
Dai Ko H.
Faust Bruce C.
Labiosa William B.
MacFall Janet S.
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