Mooihoekite

Mooihoekite
Mooihoekite
General
Category	Sulfide mineral
Formula; (repeating unit)	Cu9Fe9S16
IMA symbol	Mho
Strunz classification	2.CB.10b
Crystal system	Tetragonal
Crystal class	Scalenohedral (42m) ; H-M symbol: (4 2m)
Space group	P42m
Unit cell	a = 10.58 Å, c = 5.38 Å; ; Volume = 602.22 Å3; Z = 1
Identification
Formula mass	1,587.59 g/mol
Color	Pale yellow. Tarnishes to pinkish brown and purple
Crystal habit	Granular - Generally occurs as anhedral to subhedral crystals in matrix
Mohs scale hardness	4
Luster	Metallic
Streak	Black
Diaphaneity	Opaque
Specific gravity	4.36
Optical properties	Weakly anisotropic
References

Mooihoekite is a copper iron sulfide mineral with chemical formula of Cu₉Fe₉S₁₆. The mineral was discovered in 1972 and received its name from its discovery area, the Mooihoek mine in Transvaal, South Africa.^[5]

Crystal structure and optical properties edit

Mooihoekite crystallizes in the tetragonal crystal system. It has a short optical c-axis that is perpendicular to two longer a-axes of equal length. For Mooihoekite, the c-axis is a 4-fold rotoinversion axis.^[3]

Mooihoekite is an opaque mineral which shows weak anisotropism in polished section under reflected light microscopy. It goes slightly extinct every 90°.^[3]

Occurrence edit

It is found in massive sulfide from pipe-shaped dunite pegmatite in the norite zone of the Bushveld igneous complex in South Africa. It has also been found in troctolite from the basal Duluth gabbro in Minnesota, US; in the Talnakh area, Norilsk region, western Siberia; at Krzemianka, Poland; in the Malanjkhand copper-molybdenum deposit, Madhya Pradesh, India; and the Stillwater igneous complex in Montana, US.^[6]^[7]

Mooihoekite occurs in association with haycockite, magnetite, troilite, cuprian pentlandite, mackinawite, sphalerite, and moncheite in the Mooihoek mine and with haycockite, native copper, troilite, pentlandite, cubanite and magnetite in the Duluth complex.^[7]

Uses edit

Mooihoekite is a rare mineral that is mostly used for research purposes. It has similar properties to chalcopyrite CuFeS₂, making it helpful in the study of ore deposits and the study of the central portion of the Cu-Fe-S phase system.^[3] Mooihoekite, chalcopyrite, talnakhite, and haycockite all play key roles in the study of ore genesis and beneficiation.

References edit

^ 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.
^ Mineralienatlas
^ ^a ^b ^c ^d Cabri, L.J. and Hall, S.R. (1972) Mooihoekite and Haycockite, Two New Copper-Iron Sulfides, and Their Relationship to Chalcopyrite and Talnakhite. American Mineralogist, 57, 689-708.
^ Hall, S.R. and Rowland, J.F. (1973) The Crystal Structure of Synthetic Mooihoekite. Acta Crystallographica, 29, 2365-2372.
^ ^a ^b Webmineral data
^ ^a ^b Mindat.org
^ ^a ^b ^c Handbook of Mineralogy

[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] Mineralienatlas

[amer-3] Cabri, L.J. and Hall, S.R. (1972) Mooihoekite and Haycockite, Two New Copper-Iron Sulfides, and Their Relationship to Chalcopyrite and Talnakhite. American Mineralogist, 57, 689-708.

[acta-4] Hall, S.R. and Rowland, J.F. (1973) The Crystal Structure of Synthetic Mooihoekite. Acta Crystallographica, 29, 2365-2372.

[Webmin-5] Webmineral data

[Mindat-6] Mindat.org

[HBM-7] Handbook of Mineralogy

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