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Hibbingite

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Hibbingite
General
CategoryHalide mineral
Formula
(repeating unit)
Fe2(OH)3Cl
Strunz classification3.DA.10a

3 : HALIDES D : Oxyhalides, hydroxyhalides and related double halides

A : With Cu, etc., without Pb
Crystal systemOrthorhombic
Crystal classmmm (2/m 2/m 2/m) - Dipyramidal
Space groupPnam
Unit cella=6.31(6), b=9.20( 4 ) ,c=7.10(7)L, v:412.17A', and Z=4
Identification
Formula mass198.17
Colorcolorless to pale green, increasingly red with oxidation
Crystal habitplaty
Cleavageperpendicular to vein walls
Specific gravity3.04
Density3.04 g/cm³
Refractive index1.6-1.7
Solubilitysoluble in water and ethanol
References[1][2][3][4][5]

Hibbingite is a divalent iron hydroxychloride found in the Duluth Complex of northeastern Minnesota, United States. Hibbingite can be found in troctolitic, partially serpentinized rocks. Hibbingite can also be found in sulfide ore from the Sudbury Complex, Canada, the Noril’sk Intrusion in Russia, and in terrestrially weathered meteorites. Hibbingite is mostly found as vein filings from drill cores taken from troctolitic, partially serpentinized rocks. Hibbingite itself can have cleavage perpendicular to the vein walls in which it is found. Hibbingite is associated with serpentine, olivine, plagioclase, biotite, and secondary magnetite or goethite. Fresh samples are internally green but turn reddish as they oxidize. Hibbingite is part of the atacamite family of minerals.[1]

Naming

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Hibbingite is named after the town of Hibbing, Minnesota. Hibbingite is preserved at the drill core library of the Department of Natural Resources in Hibbing Minnesota.[1]

Occurrence

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Hibbingite occurs in the Duluth Complex of northeastern Minnesota. Specifically, it occurs in drill cores of serpentinized, troctolitic, or peridotitic rocks. Veins of hibbingite may crosscut olivine or plagioclase grains. Hibbingite can also occur along cleavage planes of biotite.[1] It has also been identified from Norilsk, Siberia, Russia[4] and together with a polymorph, parahibbingite, in Slovakia[2]

Physical and optical properties

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Grain sizes of hibbingite range from 20 to 700 μm long and 3-100 μm wide. Hibbingite can be lense shaped, often in biotite. Hydration bubbles can form on the surface of the mineral after being exposed to atmospheric moisture. Hibbingite may exhibit feathery intergrowths of serpentine minerals. Hibbingite is colorless to pale green in its unoxidized form.[1] The internal reflections of hibbingite are green but turn red as it oxidizes. Hibbingite is often lens shaped.[1]

Chemical Properties

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Hibbingite is a divalent hydroxychloride. The simplified formula of hibbingite is Fe2Cl(OH)3. Hibbingite has the ability to oxidize. The internal reflections turn from green to red as it oxidizes. Hibbingite probably formed in the Duluth complex as a result of Cl rich fluids participating in serpentinization reactions. Hibbingite is a naturally occurring iron hydroxychloride. The iron in hibbingite is divalent. This was determined by measuring the FeLβ/Lα ratio of X-ray emission from hibbingite grains, and by visible-light absorption spectroscopy.[1]

Chemical composition

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Element wt%
Fe 56.36
Cl 17.89
OH 25.75
Total 100

[1]

X-ray crystallography

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X-ray diffraction analysis was originally carried out twice in an attempt to get the X-ray diffraction pattern of hibbingite. Neither attempt yielded unambiguous data. Hibbingite has an inferred space group of Pnam and a calculated density of 3.04 g/cm³.[1] In 2019, a research group led by Natalia V. Zubkova solved the structure of hibbingite from X-ray diffraction. Their value was refined to R=2.07%.[4]

References

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  1. ^ a b c d e f g h i Saini-Eidukat, Bernhardt; Rudashevsky, Nikolai; Polozov, Alexander (April 1998). "Evidence for hibbingite-kempite solid solution". Mineralogical Magazine. 62(2): 251–255
  2. ^ a b Kodera, Peter; Majzlan, Juraj; Pollok, Kilian; Kiefer, Stefan; Simko, Frantisek; Sholtzova, Eva; Luptakova, Jarmila; Cawthorn, Grant (2022). "Ferrous hydroxychlorides hibbingite [γ-Fe2(OH)3Cl] and parahibbingite [β-Fe2(OH)3Cl] as a concealed sink of Cl and H2O in ultrabasic and granitic systems". American Mineralogist. 107: 826–841 – via De Gruyter.
  3. ^ Saini-Eidukat, Bernhardt; Kucha, Henryk; Keppler, Hans (1994). "Hibbingite, λ-Fe2(OH)3Cl, a new mineral from the Duluth Complex, Minnesota, with implications for the oxidation of Fe-bearing compounds and the transport of metals". American Mineralogist. 79: 555–561.
  4. ^ a b c Zubkova, Natalia; Pikov, Igor; Sereda, Evgeny; Yapaskurt, Vasiliy; Pushcharovsky, Dmitry (2019). "The crystal structure of hibbingite, orthorhombic Fe2Cl(OH)3". Z. Kristallogr. 234(6): 379–382
  5. ^ “Hibbingite: Mineral Information, Data and Localities. - Mindat.Org” http://www.mindat.org/min-1896.html. Accessed 29 Nov. 2023.