COMPARATIVE X-RAY AND AL-27 NMR SPECTROSCOPIC STUDIES OF THE SPECIATION OF ALUMINUM IN AQUEOUS SYSTEMS - AL(III) COMPLEXES OF N(CH2CO2H)(2)(CH2CH2OH)

It is recognized that many aspects of the aqueous chemistry of Al-III and Fe-III are similar and this might explain how aluminum is able to enter organisms. Since aluminum is potentially toxic, it is important to be able to characterize its speciation in solution. Three major dif ficulties are the existence of a large number of equilibrium processes , its ready hydrolysis, and the lack of suitable spectroscopic probes. One way of looking directly at the aluminum environment is by Al-27 N MR, but there are difficulties with spectral assignment. A comparison of solid-state structures determined by X-ray crystallography with the se NMR spectra offers a means of determining which species are importa nt components in the solution state. With this in mind, we have synthe sized and characterized by X-ray crystallography two new aluminum comp lexes and used the information from the synthetic procedure and the st ructural details to interpret Al-27 NMR. These components are directly analogous to the iron compounds reported by us previously. They are a dinuclear compound [Al(heidi)(H2O)](2) . 2H(2)O and a tridecanuclear compound [Al(13)mu((3)-OH)(6) mu((2)-OH)(12)(heidi)(6)(H2O)(6)](3+).