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Quintinite is a carbonate mineral with the chemical formula Mg4Al2(OH)12CO3⋅3H2O.[2]

Quintinite
Quintinite-2H
General
CategoryCarbonate mineral
Formula
(repeating unit)
Mg4Al2(OH)12CO3·3H2O
IMA symbolQtn[1]
Strunz classification5.DA.40
Crystal system2H polytype: Hexagonal
3T polytype: Trigonal
Crystal classTrapezohedral (622)
H-M symbol: (6 2 2)
Space groupP6322
Unit cella = 10.571, c = 15.171 [Å], Z = 4
Identification
ColorColorless, deep orange red, orange, pale brown
Crystal habitPrismatic – crystals shaped like slender prisms
Cleavage{0001} perfect
Mohs scale hardness2
LusterVitreous
StreakWhite
DiaphaneityTransparent
Specific gravity2.14
Optical propertiesUniaxial (±) for 2H type, uniaxial negative, for 3T polytype, uniaxial negative or positive
Refractive index1.533 (isotropic)
PleochroismFor 2H polytype, O=yellow, E=lighter yellow; For 3T polytype, typically nonpleochroic
References[2][3][4][5]

The mineral was named after Quintin Wight of Ottawa, Ontario, Canada (b. 1935), who was a significant contributor to mineral studies at Mont Saint-Hilaire.[2]

Quintinite is found as 2H and 3T, or 2-hexagonal and 3-trigonal, polytypes, which were originally approved as separate species, but have not been considered species since 1998.[2][6] These hexagonal and trigonal forms of quintinite are both from the hexagonal crystal systems, meaning they both have similar lengths of their crystal axes and the same angles between these axes. As a hexagonal mineral, quintinite has three axes of equal length at 60 degree angles to one another and a c axis perpendicular to these three axes of a different length. 2H occurs in carbonatite at Jacupiranga, São Paulo, Brazil, in the Jacupiranga mine and 3T occurs with minerals like gonnardite and donnayite.[3][6] Both polytypes occur in hydrothermal vents in alkaline rocks.[5] Herg (1977) interpreted the Jacupiranga area as related to a hotspot.[7] The 3T polytype was originally found in the Poudrette quarry at Mont Saint-Hilaire, which is a rare alkaline intrusive complex.[8] The 2H polytype is pleochroic, meaning that the mineral changes colors (in this case yellow and light yellow) when viewed at different angles under a polarizing petrographic microscope.[4] The 3T polytype, however, is not commonly pleochroic but can show green pleochroism if it is high in iron.[4] The 3T polytype has a positive index of refraction whereas the 2H polytype can possess crystals with either a positive or a negative index of refraction.[4]

References

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  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. ^ a b c d Quintinite, Mindat
  3. ^ a b Quintinite, Webmineral
  4. ^ a b c d John L. Jambor; Edward S. Grew & Andrew C. Roberts (1998). "New mineral names" (PDF). American Mineralogist. 83 (11–12): 1347.
  5. ^ a b George Y. Chao & Robert A. Gault (1997). "Quintinite-2H, Quintinite-3T, Charmarite-2H, Charmarite-3T and Caresite-3T, a new group of carbonate minerals related to the hydrotalcite-manasseite group". The Canadian Mineralogist. 35: 1541–1549.
  6. ^ a b Bernard, J.H. and Hyrsl, J. (2004) Minerals and their Localities, 807 p. Granit, s.r.o., Prague (Quintinite, p. 503).
  7. ^ Greta J. Orris and Richard I. Grauch Rare Earth Element Mines, Deposits, and Occurrences Archived July 21, 2011, at the Wayback Machine, USGS, 2002
  8. ^ Haring, Monika Characterization and crystal-structure determination of UK 117 and UK 120, two potentially new minerals from Mont Saint-Hilaire, Québec, B.Sc. Thesis, Laurentian University, 2010