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See more from this Division: S02 Soil Chemistry
See more from this Session: Oxyanions in Soil Environments: II
Wednesday, 8 October 2008: 3:45 PM
George R. Brown Convention Center, 360C
Abstract:
It's been hypothesized that PO4 is bound to soil organic matter (OM) via the formation of PO4-Fe-OM ternary complexes. Soil scientists are utilizing the technique of XAFS to probe Fe local coordination environment to investigate this hypothesis. To provide a model structure in which iron is bridging carboxyl and phosphate groups, A new ferric iron oxalatophosphate compound with the molecular formula of [C3H12N2]2[Fe5(C2O4)2(HPO4)2(H1.5PO4)2(H2PO4)2(PO4)2] (I) was hydrothermally synthesized in the presence of DAP (1,3-diaminopropane) as a structure directing template. The new structure was analyzed by single crystal x-ray diffraction that gave the following structural parameters: space group of P -1, triclinic, a=9.7851(3) Å, b=9.8986(3) Å, c=10.7420(3) Å, &Alpha=73.7900°(15), &Beta=71.6838(14)°, &gamma=79.3001(13)°, V=942.99(5) Å3, Rf, Rw=0.044, 0.051. In this new structure, Fe-O octahedra and P-O tetrahedra are connected by sharing corners, forming 2-D networks on the ab plane. Oxalate anions cross link Fe-P networks, constructing the anionic 3-D framework. The structure directing template, DAP, is diprotonated to carry +2 charges, offsetting the negative charges from the anionic framework. Along vector 110 and 100, this framework exhibits two types of channels, one of which the organic amine resides in. Iron K-edge XAFS study was applied to this new species. The Fe absorption edge in the XANES spectrum confirmed that all iron in I is Fe(III). The structural feature of I that Fe is bridging carboxyl and phosphate groups leads to the characteristics in its EXAFS spectrum: backscattering signals of Fe-C paths contribute to the distinct Fe-C peak between the Fe-O peak and Fe-P peak. Such characteristics are missing in the EXAFS spectrum of a structure in which Fe is only coordinated to PO4. The structural and spectral features of this novel Fe(III) oxalatophosphate could facilitate the interpretation and modeling of Fe XAFS spectra from soil systems
See more from this Division: S02 Soil Chemistry
See more from this Session: Oxyanions in Soil Environments: II