Ophirite

Ophirite
Ophirite
General
Category	Tungstate
Formula; (repeating unit)	Ca2Mg4[Zn2Mn3+2(H2O)2(Fe3+W9O34)2] · 46•H2O
IMA symbol	Oph
Strunz classification	7.GB.80
Crystal system	Triclinic
Crystal class	1 - Pinacoidal
Space group	P1
Unit cell	a = 11.9860(2) Å, b = 13.2073(2) Å ; c = 17.689(1) Å; ; β= 85.364(6)°; α = 69.690(5)°; γ = 64.875(5)°; Z = 1
Identification
Formula mass	5726.57
Color	Orange-brown
Crystal habit	Tablet-shaped crystals
Cleavage	None observed
Fracture	Irregular/uneven
Tenacity	Brittle
Mohs scale hardness	2
Luster	Vitreous
Streak	Pale orange
Diaphaneity	Transparent
Specific gravity	4.060 g/cm3
Optical properties	Biaxial positive
Refractive index	nα= 1.730(3) nβ= 1.735(3) nγ= 1.770(3)
Birefringence	δ = 0.040
Pleochroism	Visible
Dispersion	r > v, strong
Ultraviolet fluorescence	None
References

Ophirite is a tungstate mineral first discovered in the Ophir Hill Consolidated mine at Ophir district, Oquirrh Mountains, Tooele County, Utah, United States of America. It was found underground near a calcite cave in one veinlet, six centimeters wide by one meter long, surrounded by different sulfides. Before the closing of the mine in 1972, it was dominated by sulfide minerals, and the Ophir district was known for being a source of zinc, copper, silver, and lead ores. The crystals are formed as tablets. It is the first known mineral to contain a heteropolyanion, a lacunary defect derivative of the Keggin anion. The chemical formula of ophirite is Ca₂Mg₄[Zn₂Mn³⁺₂(H₂O)₂(Fe³⁺W₉O₃₄)₂] · 46•H₂O. The mineral has been approved by the Commission on New Minerals and Mineral Names, IMA, to be named ophirite for its type locality, the Ophir Consolidated mine.^[2]

Occurrence

Ophirite is found in association with scheelite and pyrite. The production of the mineral is thought to be from oxidative alteration of sulfides: a reaction between dolomite and scheelite with oxidizing and late acidic hydrothermal solutions that are in the presence of calcium-rich and pyrite hornfels. It occurs in one veinlet, which is surrounded by sphalerite, galena, bournonite, unidentified sulfide minerals, foci of apatite, and sericite-containing pyrite, and is typically interface between scheelite and dolomite. Also present in the vein are crystals of sulfur and fluorite.^[2]

Physical properties

Ophirite is an orange-brown, transparent mineral with a vitreous luster. It exhibits a hardness of 2 on the Mohs hardness scale. Ophirite occurs as tablet-shaped crystals on {001} with irregular {100} and {110} bounding forms. Ophirite has no observed cleavage and irregular/uneven fracture. The measured specific gravity is 4.060 g/cm³.^[3]

Optical properties

Ophirirte is biaxial positive, which means it will refract light along two axes. The mineral is optically biaxial positive, 2V_meas. 43(2)°. The refractive indices are: α ~ 1.730(3), β ~ 1.735(3), and γ ~ 1.770(3)°. Dispersion is strong, r > v. Its pleochroism is light orange brown for X and Y, and orange brown for Z, where X<Y<<Z. Observations indicate that chemical species are in their fully oxidized states.^[2]

Chemical properties

Ophirite is a tungstate, and is the first mineral discovered containing ^[4]Fe^3+[6]W⁶⁺₉O₃₄, a group in the structural unit of the ophirite polyanion. Tri-lacunary Keggin anions are well known in synthetic compounds, but ophirite is the first known example of a mineral with a tri-lacunary Keggin polyanion.The empirical chemical formula for ophirite calculated on the basis of 30 cations, is Ca_1.73Mg_3.99[Zn_2.02Mn³⁺_1.82(H₂O)₂(Fe³⁺_2.34W_17.99O₆₈)₂] · 45.95•H₂O. The ideal formula for ophirite is Ca₂Mg₄[Zn₂Mn³⁺₂(H₂O)₂(Fe³⁺W₉O₃₄)₂] · 46•H₂O.^[2]

Chemical composition

Constituent	wt%	ideal wt%
CaO	1.68	1.94
MgO	2.79	2.78
ZnO	2.86	2.81
Mn₂O₃	2.50	2.73
Fe₂O₃	3.25	2.76
Sb₂O₃	0.61	-
WO₃	71.94	72.06
H₂O	15.24	14.92
Total	100.87	100.00

^[2]

X-ray crystallography

A Rigaku R-Axis Rapid II curved imaging plate microdiffractometer using monochromatized MoKα radiation was used to collect X-ray diffraction data for ophirite. ^[2] Ophirite is in the triclinic crystal system and in the space group P1. Its unit-cell dimensions were determined to be a = 11.9860(2) Å; b = 13.2073(2) Å; c = 17.689(1) Å; β= 85.364(6)°; α = 69.690(5)°; γ = 64.875(5)°; Z = 1. ^[3]

References

^ 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.
^ a b c d e f g Anthony R. Kampf, John M. Hughes, Barbara P. Nash, Stephen E. Wright, George R. Rossman, Joe Marty; Ophirite, Ca₂Mg₄[Zn2Mn₂³⁺(H₂O)2(Fe3+W₉O₃₄)₂]·46H₂O, a new mineral with a heteropolytungstate tri-lacunary Keggin anion. American Mineralogist 2014;; 99 (5-6): 1045–1051. doi: https://doi.org/10.2138/am.2014.4699.
^ a b c Hudson Institute of Mineralogy, 2014, Ophirite: https://www.mindat.org/min-43845.html (accessed November 2023)

[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.

[Kampf-2] Anthony R. Kampf, John M. Hughes, Barbara P. Nash, Stephen E. Wright, George R. Rossman, Joe Marty; Ophirite, Ca₂Mg₄[Zn2Mn₂³⁺(H₂O)2(Fe3+W₉O₃₄)₂]·46H₂O, a new mineral with a heteropolytungstate tri-lacunary Keggin anion. American Mineralogist 2014;; 99 (5-6): 1045–1051. doi: https://doi.org/10.2138/am.2014.4699.

[Mindat-3] Hudson Institute of Mineralogy, 2014, Ophirite: https://www.mindat.org/min-43845.html (accessed November 2023)