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PDF analysis of ferrihydrite and the violation of Pauling's Principia

Published online by Cambridge University Press:  09 July 2018

A. Manceau
A. Manceau*
Affiliation:
LGCA-Maison des Géosciences, CNRS and Université J. Fourier, BP 53, 38041 Grenoble, France
*
*E-mail: Alain.Manceau@obs.ujf-grenoble.fr
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Abstract

The risk of overfitting pair distribution function (PDF) data for highly defective material (Farrow et al., 2007) is illuminated with the example of the nanocrystalline hydrous ferric oxyhydroxide, ferrihydrite. Two structural models have been published by Michel et al. (2007, 2010) using this method, both of which contradict the standard ‘ferrihydrits’ model established by X-ray diffraction (Drits et al., 1993), and confirmed by single-crystal electron nanodiffraction (Janney et al., 2001) and neutron diffraction (Jansen et al., 2002). Although PDF data are reproduced equally well with the two regression models, neither model is realistic: the first (fhyd6) violates Pauling's 2nd rule, and the second (ferrifh), Pauling's 3rd rule.

Keywords

ferrihydritestructurePDFHEXSLinus PaulingPauling's rules
Type
Research Article
Information
Clay Minerals , Volume 45 , Issue 2 , June 2010 , pp. 225 - 228
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 2010

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References

Blake, R.L., Hessevick, R.E., Zoltai, T. & Finger, L.W. (1966) Refinement of the hematite structure. American Mineralogist, 51, 123129.Google Scholar
Brown, I.D. & Altermatt, D. (1985) Bond-valence parameters obtained from a systematic analysis of the Inorganic Crystal Structure Database. Ada Crystallographica, B41, 244247.Google Scholar
Cowley, J.M., Janney, D.E., Gerkin, R.C. & Buseck, P.R. (2000) The structure of ferritin cores determined by electron nanodiffraction. Journal of Structural Biology, 131, 210216.Google Scholar
De Grave, E., Vandenberghe, R.E. & Dauwe, C. (2005) ILEEMS: Methodology and applications to iron oxides. Hyperfine Interactions, 161, 147160.CrossRefGoogle Scholar
Drits, V.A., Sakharov, B.A., Salyn, A.L. & Manceau, A. (1993) Structural model for ferrihydrite. Clay Minerals, 28, 185208.Google Scholar
Farrow, C.L., Juhas, P., Liu, J.W., Bryndin, D., Bozin, E.S., Bloch, J., Proffen, T. & Billinge, S.J.L. (2007) PDFfit2 and PDFgui: computer programs for studying nanostructure in crystals. Journal of Physics: Condensed Matter, 19, 335219.Google ScholarPubMed
Hazemann, J.L., Berar, J.F. & Manceau, A. (1991) Rietveld studies of the aluminium-iron substitution in synthetic goethite. Materials Sciences Forum, 79-82, 821826.Google Scholar
Hiemstra, T. & van Riemsdijk, W.H. (2009) A surface structural model for ferrihydrite I: Sites related to primary charge, molar mass, and mass density. Geochimica et Cosmochimica Acta, 73, 44234436.Google Scholar
Janney, D.E., Cowley, J.M. & Buseck, P.R. (2000) Structure of synthetic 2-line ferrihydrite by electron nanodiffraction. American Mineralogist, 85, 11801187.Google Scholar
Janney, D.E., Cowley, J.M. & Buseck, P.R. (2001) Structure of synthetic 6-line ferrihydrite by electron nanodiffraction. American Mineralogist, 86, 327335.CrossRefGoogle Scholar
Jansen, E., Kyek, A., Schafer, W. & Schwertmann, U. (2002) The structure of six-line ferrihydrite. Applied Physics A - Materials Science & Processing, 74, S1004S1006.Google Scholar
Juhas, P., Cherba, D.M., Duxbury, P.M., Punch, W.F. & Billinge, S.J.L. (2006) Ab initio determination of solid-state nanostructure. Nature, 440, 655658.Google Scholar
Manceau, A. (2009) Evaluation of the structural model for ferrihydrite derived from real-space modeling of high-energy X-ray diffraction data. Clay Minerals, 44, 1934.Google Scholar
Manceau, A. & Drits, V.A. (1993) Local structure of ferrihydrite and feroxyhite by EXAFS speetroseopy. Clay Minerals, 28, 165184.Google Scholar
Manceau, A. & Gates, W. (1997) Surface structural model for ferrihydrite. Clays and Clay Minerals, 43, 448460.CrossRefGoogle Scholar
Manceau, A., Combes, J.M. & Calas, G. (1990) New data and a revised model for ferrihydrite : a comment on a paper by R. A. Eggleton and R. W. Fitzpatrick. Clays and Clay Minerals, 38, 331334.Google Scholar
Michel, F.M., Ehm, L., Antao, S.M., Lee, P.L., Chupas, P.J., Liu, G., Strongin, D.R., Schoonen, M.A.A., Phillips, B.L. & Parise, J.B. (2007) The structure of ferrihydrite, a nanocrystalline material. Science, 316, 17261729.Google Scholar
Michel, F.M., Barronc, V., Torrent I, Morales, M.P., Sernad, C.J., Boily, J.F., Liu, Q., Ambrosini, A., Cismasu, A.C. & Brown, G.E. (2010) Ordered ferrimagnetic form of ferrihydrite reveals links among structure, composition, and magnetism. Proceedings of the National Academy of Science of the United States of America, 107, 27872792.Google Scholar
Pan, Y.H., Sader, K., Powell, J.J., Bleloch, A., Gass, M., Trinick, J., Warley, A., Li, A., Brydson, R. & Brown, A. (2009) 3D morphology of the human hepatic ferritin mineral core: New evidence for a subunit structure revealed by single particle analysis of HAADF-STEM images. Journal of Structural Biology, 166, 2231.Google Scholar
Pan, Y.H., Vaughan, G., Brydson, R., Bleloch, A., Gass, M., Sader, K. & Brown, A. (2010) Electron-beam-induced reduction of Fe3+ in iron phosphate dihydrate, ferrihydrite, haemosiderin and ferritin as revealed by electron energy-loss speetroseopy. Ultramicroscopy. doi:10.1016/j.ultramic.2010.01.008Google Scholar
Pankhurst, G.A. & Pollard, R.J. (1992) Structural and magnetic properties of ferrihydrite. Clays and Clay Minerals, 40, 268272.Google Scholar
Pauling, L. (1929) The principles determining the structure of complex ionic crystals. Journal of the American Chemical Society, 51, 10101026.Google Scholar
Proffen, T. & Billinge, S.J.L. (1999) PDFFIT, a program for full profile structural refinement of the atomic pair distribution function. Journal of Applied Crystallography, 32, 572575.Google Scholar
Rancourt, D.G. & Meunier, I.F. (2008) Constraints on structural models of ferrihydrite as a nanocrystalline material. American Mineralogist, 93, 14121417.CrossRefGoogle Scholar
Wells, D.M., Jin, G.B., Skanthakumar, S., Haire, R.G., Soderholm, L. & Ibers, J.A. (2009) Quaternary neptunium compounds: Syntheses and characterization of KCuNpS3, RbCuNpS3, CsCuNpS3, KAgNpS3, and CsAgNpS3 . Inorganic Chemistry, 48, 1151311517.Google Scholar