Reduction of antimony by nanoparticulate magnetite and mackinawite


Reduction of antimony by nanoparticulate magnetite and mackinawite

Kirsch, R.; Scheinost, A. C.; Rossberg, A.; Banerjee, D.; Charlet, L.

Speciation of Sb is strongly influenced by its oxidation state (V, III, 0, -III). Redox processes under anerobic groundwater conditions may therefore greatly alter the environmental behavior of Sb. Employing X-ray absorption and photon spectroscopy, we show here that Sb(V) is reduced to Sb(III) by magnetite and mackinawite, two ubiquitous Fe(II)-containing minerals, while Sb(III) is not further reduced. At the surface of magnetite, Sb(III) forms a highly symmetrical sorption complex at the position else occupied by tetrahedral Fe(III). The Sb(V) reduction increases with pH, at values above pH 6.5 Sb(V) is completely reduced to Sb(III) within 30 days. In contrast, Sb(V) is completely reduced at the mackinawite surface across a wide pH range and within 15 days. Sb(V) reduction proceeds solely by oxidation of surface Fe(II), while the oxidation state of sulfide is conserved. Independent of whether Sb(V) or Sb(III) was added, an amorphous or nanoparticulate SbS3-like solid forms.

Keywords: antimony; reduction; Fe(II); magnetite; mackinawite

  • Mineralogical Magazine 72(2008)1, 185-189
  • Contribution to proceedings
    Geochemistry of the Earth's Surface 8 (GES8), 18.-22.08.2008, London, UK
    abstracts published in "Mineralogical Magazine"
  • Poster
    Geochemistry of the Earth's Surface 8 (GES8), 18.08.2008, London, UK

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Publ.-Id: 11262