Identification of green rust in an ochre sludge

C. Bender Koch; S. Mørup

doi:10.1180/claymin.1991.026.4.12

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References

Allmann, R. (1968) The crystal structure of pyroaurite. Acta Cryst. B24, 972–977.Google Scholar

Brindley, G.W. & Bish, D.L. (1976) Green rust: a pyroaurite type structure. Nature, 263, 353.Google Scholar

Cuttler, A.H., Man, V., Cranshaw, T.E. & Longworth, G. (1990). A Mössbauer study of green rust precipitates: I. Preparation from sulphate solutions. Clay Miner., 25, 289–301.CrossRef Google Scholar

Hansen, H.C.B. (1989) Composition, stabilization, andlight absorption of Fe(II)Fe(III) hydroxycarbonate (ugreen rust,?). Clay Miner., 24, 663–669.CrossRef Google Scholar

Murad, E. (1968) Properties and behaviour of iron oxides as determined by Mössbauer spectroscopy. Pp. 309–350 in: Iron in Soils and Clay Minerals (Stucki, J.W., Goodman, B.A. & Schwertmann, U., editors). NATO ASI Series, D. Reidel Publ. Co. Dordrecht.Google Scholar

Murad, E. & Taylor, R.M. (1984) The Mössbauer spectra of hydroxycarbonate green rusts. Clay Miner., 19, 77–83.Google Scholar

Murad, E. & Taylor, R.M. (1986) The oxidation of hydroxycarbonate green rusts. Pp. 585–593 in: Industrial Applications of the Mössbauer Effect(Long, G.J. & Stevens, J.G., editors). Plenum Press, New York.Google Scholar

Mørup, S., Dumesic, J.A. & Tops0e, H. (1980) Magnetic microcrystals. Pp. 1–53 in: Applications of Mössbauer Spectroscopy,Vol. II, (Cohen, R.L., editor). Academic Press, London.Google Scholar

Mørup, S., Madsen, M.B., Franck, J., Villadsen, J. & Koch, C.J.W. (1983) A new interpretation of Mössbauer spectra of microcrystailine goethite: “super-ferromagnetism” or “super-spin-glass” behaviour? J. Magn. Magn. Mater., 40, 163–174.Google Scholar

Taylor, H.F.W. (1973) Crystal stuctures of some double hydroxide minerals. Mineral. Mag., 39, 377–389.Google Scholar

Taylor, R.M. (1980) Formation and properties of Fe(II)Fe(III) hydroxy-carbonate and its possible significance in soil formation. Clay Miner., 15, 369–382.Google Scholar

Taylor, R.M. (1982) Stabilization of colour and structure in the pyroaurite-type compounds Fe(II)Fe(III)- hydroxycarbonates. Clay Miner., 17, 369–372.CrossRef Google Scholar

Taylor, R.M. & McKenzie, R.M. (1980) The influence of aluminum on iron oxides. VI. The formation of Fe(II)- Al(III) hydroxy-chlorides, -sulfates, and -carbonates as new members of the pyroaurite group and their significance in soils. Clays Clay Miner., 28, 179–187.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Goodman, B. A. 1994. Clay Mineralogy: Spectroscopic and Chemical Determinative Methods. p. 68.

Hansen, Hans Christian Bruun Borggaard, Ole Kragholm and Sørensen, Jan 1994. Evaluation of the free energy of formation of Fe(II)-Fe(III) hydroxide-sulphate (green rust) and its reduction of nitrite. Geochimica et Cosmochimica Acta, Vol. 58, Issue. 12, p. 2599.

Schwertmann, U. and Fechter, H. 1994. The Formation of Green Rust and Its Transformation to Lepidocrocite. Clay Minerals, Vol. 29, Issue. 1, p. 87.

Bruun Hansen, Hans Christian and Koch, Christian Bender 1995. Synthesis and characterization of pyroaurite. Applied Clay Science, Vol. 10, Issue. 1-2, p. 5.

Trolard, F. Génin, J.-M.R. Abdelmoula, M. Bourrié, G. Humbert, B. and Herbillon, A. 1997. Identification of a green rust mineral in a reductomorphic soil by Mossbauer and Raman spectroscopies. Geochimica et Cosmochimica Acta, Vol. 61, Issue. 5, p. 1107.

Fredrickson, James K. Zachara, John M. Kennedy, David W. Dong, Hailang Onstott, Tullis C. Hinman, Nancy W. and Li, Shu-mei 1998. Biogenic iron mineralization accompanying the dissimilatory reduction of hydrous ferric oxide by a groundwater bacterium. Geochimica et Cosmochimica Acta, Vol. 62, Issue. 19-20, p. 3239.

Bessière, Jacques Perdicakis, Michel and Humbert, Bernard 1999. Formation de la rouille verte II sulfatée Fe2(OH)12SO4 par oxydation du sulfate ferreux par l'eau. Comptes Rendus de l'Académie des Sciences - Series IIC - Chemistry, Vol. 2, Issue. 2, p. 101.

Refait, Ph. Bon, C. Simon, L. Bourrié, G. Trolard, F. Bessière, J. and Gènin, J.-M. R. 1999. Chemical composition and Gibbs standard free energy of formation of Fe(II)-Fe(III) hydroxysulphate green rust and Fe(II) hydroxide. Clay Minerals, Vol. 34, Issue. 3, p. 499.

Hansen, H 2001. Kinetics of nitrate reduction by green rusts—effects of interlayer anion and Fe(II):Fe(III) ratio. Applied Clay Science, Vol. 18, Issue. 1-2, p. 81.

Trolard, Fabienne 2006. Fougerite: From field experiment to the homologation of the mineral . Comptes Rendus. Géoscience, Vol. 338, Issue. 16, p. 1158.

Bearcock, J. M. Perkins, W. T. Dinelli, E. and Wade, S. C. 2006. Fe(II)/Fe(III) ‘green rust’ developed within ochreous coal mine drainage sediment in South Wales, UK. Mineralogical Magazine, Vol. 70, Issue. 6, p. 731.

Stucki, J.W. 2006. Handbook of Clay Science. Vol. 1, Issue. , p. 423.

Trolard, Fabienne Bourrié, Guilhem Abdelmoula, Mustapha Refait, Philippe and Feder, Frédéric 2007. Fougerite, a new mineral of the pyroaurite-iowaite group: Description and crystal structure. Clays and Clay Minerals, Vol. 55, Issue. 3, p. 323.

Mazeina, Lena Navrotsky, Alexandra and Dyar, Darby 2008. Enthalpy of formation of sulfate green rusts. Geochimica et Cosmochimica Acta, Vol. 72, Issue. 4, p. 1143.

Trolard, Fabienne and Bourrié, Guilhem 2008. Vol. 99, Issue. , p. 227.

CrossRef

Christiansen, B. C. Balic-Zunic, T. Dideriksen, K. and Stipp, S.L.S. 2009. Identification of Green Rust in Groundwater. Environmental Science & Technology, Vol. 43, Issue. 10, p. 3436.

Krivovichev, S. V. Yakovenchuk, V. N. Zhitova, E. S. Zolotarev, A. A. Pakhomovsky, Y. A. and Ivanyuk, G. Yu. 2010. Crystal chemistry of natural layered double hydroxides. I. Quintinite-2H-3c from the Kovdor alkaline massif, Kola peninsula, Russia. Mineralogical Magazine, Vol. 74, Issue. 5, p. 821.

Davesne, E. Dideriksen, K. Christiansen, B.C. Sonne, M. Ayala-Luis, K.B. Koch, C. Bender Hansen, H.C.B. and Stipp, S.L.S. 2010. Free energy of formation for green rust sodium sulphate (NaFeII6FeIII3(OH)18(SO4)2(s)). Geochimica et Cosmochimica Acta, Vol. 74, Issue. 22, p. 6451.

Christiansen, B.C. Geckeis, H. Marquardt, C.M. Bauer, A. Römer, J. Wiss, T. Schild, D. and Stipp, S.L.S. 2011. Neptunyl (Np) interaction with green rust,. Geochimica et Cosmochimica Acta, Vol. 75, Issue. 5, p. 1216.

Kone, T. Hanna, K. and Usman, M. 2011. Interactions of synthetic Fe(II)–Fe(III) green rusts with pentachlorophenol under various experimental conditions. Colloids and Surfaces A: Physicochemical and Engineering Aspects, Vol. 385, Issue. 1-3, p. 152.

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Identification of green rust in an ochre sludge

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Identification of green rust in an ochre sludge

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