Chukanovite
General
CategoryCarbonate
Formula
(repeating unit)
Fe2(CO3)(OH)2
IMA symbolCkn[1]
Strunz classification05.BA.10
Crystal systemMonoclinic
Crystal classPrismatic (2/m)
(same H-M symbol)
Space groupP21/a
Unit cella = 12.396 Å, b = 9.407 Å
c = 3.2152 Å;
β = 97.78°; Z = 4
Identification
Formula mass206.88 g
ColorColorless, pale green (unaltered); brown to brownish green (at surface)
Crystal habitAcicular to fibrous crystals
Cleavage{021} Perfect
FractureIrregular/uneven
TenacityBrittle
Mohs scale hardness3.5-4
LusterVitreous
StreakWhite (unaltered), yellow (at surface)
DiaphaneityTransparent
Density3.60 g/cm3
Optical propertiesBiaxial negative
Refractive indexnα= 1.673 nβ= 1.770 nγ= 1.780
Birefringenceδ=0.1070
PleochroismNonpleochroic
References[2][3][4][5]

Chukanovite is an iron(II) hydroxide-carbonate mineral with the ideal chemical formula Fe+22(CO3)(OH)2. It is a member of the rosasite mineral group and crystalizes in the monoclinic crystal system. Upon initial crystallization, it is typically pale green to colorless, but it takes on a brownish green hue after being altered at the surface. As a weathering product of meteoritic iron, chukanovite is a relatively uncommon mineral on Earth, having only been discovered in the year 2000. However, it is commonly formed artificially as a corrosion byproduct through the manufacturing of sand-deposited carbon steel.[4][5]

Occurrence

Chukanovite was first discovered in weathered cavities of a meteorite which fell near the small village of Dronino, 350 km southeast of Moscow, Russia, but the mineral has since been found elsewhere in cavities of other iron-rich meteorites. It occurs primarily in association with goethite, akaganeite, hematite, hibbingite, reevesite, honessite, and kamacite, though the meteorites that contain chukanovite also tend to contain taenite and chromite. Individual crystals form from a reaction between kamacite and cold water that is rich in dissolved carbon dioxide, during which they adopt a fibrous to acicular habit and grow to an average size of roughly 0.5 mm in length and 2-3 μm in thickness. Individual crystals tend to coalesce within the meteorite cavities into porous collections or crusts of spherulites, each with a diameter of about 1 mm.[4][2]

Physical properties

Crystals of chukanovite are pale green to colorless with a vitreous luster. If exposed to air for extended periods of time, chukanovite will weather over the course of a few months, becoming brownish green and then increasingly losing its color and luster as time passes. Throughout the weathering process, the mineral's streak will also change color, from white when unaltered to brownish yellow when weathered. Regardless of the degree to which it is weathered, chukanovite's cleavage remains perfect on {021}, and its tenacity is always brittle. On the Mohs scale of mineral hardness, chukanovite lies between 3.5 and 4.0, making it softer than fluorite but harder than calcite. Its density is 3.60 g/cm3.[2][3]

Optical and Chemical properties

Chukanovite is optically biaxial negative with α = 1.673, β = 1.770, γ = 1.780, 2V(meas.) = 10°, and 2V(calc.) = 34°. The crystals are transparent and nonpleochroic, and exhibit a birefringence of δ=0.1070.

The ideal chemical formula for chukanovite is Fe+22(CO3)(OH)2 but actual composition can vary and usually includes nickel and magnesium. The empirical formula, calculated on the basis of two metal cations, is (Fe+21.97Ni0.02Mg0.01)Σ2.00(CO3)0.93(OH)2.14•0.18H2O. As a carbonate mineral, chukanovite effervesces readily in cold, dilute HCl solution.[3][2][4]

Chemical composition

The table below lists the average composition of oxides in chukanovite.

Oxidewt%Range
MgO0.10.05-0.2
FeO68.867.5-69.9
NiO0.60.5-0.8
CO219.8-
H2O10.9-
Total100.2-

[4]

X-ray crystallography

Chukanovite crystallizes in the monoclinic crystal system, within the 2/m point group and P21/a space group. Its unit cell consists of three unequal axes lengths with angles α = γ = 90°; β = 97.78°. The unit cell dimensions were measured via x-ray powder diffraction and are a = 12.396 Å, b = 9.407 Å, c = 3.2152 Å, and Z = 4. The following chart tabulates the x-ray diffractogram results for chukanovite using conventional x-ray diffraction methods with FeKα radiation (λ = 1.93 Å).

dobs (Å) Iobs hkl
7.53 15 110
6.13 40 200
5.15 60 210
4.73 15 020
3.73 80 310
3.21 5 001
3.05 30 320
2.916 25 410
2.798 95 230
2.645 100 021
2.56 35 420
2.361 40 510
2.236 10 -131
2.171 40 520
2.137 30 -421
2.04 20 231
1.966 15 530
1.901 <5 -521
1.875 10 620
1.85 5 -241
1.797 20 250
1.766 10 241
1.733 50 -531

[4]

See also

References

  1. Warr, L.N. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine. 85 (3): 291–320. Bibcode:2021MinM...85..291W. doi:10.1180/mgm.2021.43. S2CID 235729616.
  2. 1 2 3 4 "Chukanovite". Mindat.org.
  3. 1 2 3 "Chukanovite Mineral Data". Webmineral.com. Retrieved 8 December 2021.
  4. 1 2 3 4 5 6 Pekov, Igor; Perchiazzi, Natale; Merlino, Stefano; Kalachev, Vyacheslav; Merlini, Marco; Zadov, Aleksandr (November 2007). "Chukanovite, Fe2(CO3)(OH)2, a new mineral from the weathered iron meteorite Dronino". European Journal of Mineralogy. 19 (6): 891–898. Bibcode:2007EJMin..19..891P. doi:10.1127/0935-1221/2007/0019-1767. Retrieved 8 December 2021.
  5. 1 2 Pandarinathan, Vedapriya; Lepková, Katerina; Van Bronswijk, Wilhelm (2014). "Chukanovite (Fe2(OH)2CO3) identified as a corrosion product at sand-deposited carbon steel in CO2-saturated brine". Corrosion Science. 85: 26–32. doi:10.1016/j.corsci.2014.03.032.
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