Boleite

Boleite
Boleite
General
Category	Halide mineral
Formula; (repeating unit)	KPb26Ag9Cu24(OH)48Cl62
IMA symbol	Bol
Strunz classification	3.DB.15
Crystal system	Isometric
Crystal class	Hexoctahedral (m3m) ; H-M symbol: (4/m 3 2/m)
Space group	Pm3m
Unit cell	a = 15.29 Å; Z = 1
Identification
Color	Deep Prussian blue to indigo
Crystal habit	Cubic crystals
Cleavage	[001] perfect
Fracture	Uneven
Mohs scale hardness	3.0 – 3.5
Luster	Vitreous to pearly
Streak	Greenish blue
Diaphaneity	Translucent
Specific gravity	5.054
Optical properties	Isotropic
Refractive index	n = 2.05
Other characteristics	Radioactive 0.36% (K)
References

Boleite is a complex halide mineral with formula: KPb₂₆Ag₉Cu₂₄(OH)₄₈Cl₆₂.^[3] It was first described in 1891 as an oxychloride mineral. It is an isometric mineral which forms in deep-blue cubes. There are numerous minerals related to boleite, such as pseudoboleite, cumengite, and diaboleite, and these all have the same complex crystal structure.^[5] They all contain bright-blue cubic forms and are formed in altered zones of lead and copper deposits, produced during the reaction of chloride bearing solutions with primary sulfide minerals.^[6]

Physical properties

The external property of a boleite crystal structure indicates its cubic structure. It is classified under the isometric crystal class. Boleite has a perfect cleavage in the [001] direction, and has a very dark glossy blue color with a light greenish-blue color streak. Twinning is best shown in this mineral by notches along the interpenetrated angles, which results in a crystal habit of pseudocubic penetration twinning along three different angles perpendicular to one another. Boleite has cubes over half an inch on each side, which consist of pseudo-octahedral tetragonal dipyramids.^[7]

Geologic occurrence

Boleite and atacamite from the Santa Rosa Mine, Noche Buena, Mazapil Municipality, Zacatecas, Mexico

Boleite was first collected as a very minor ore of silver, copper and lead at Boleo, Mexico.^[6] Boleite was named after its place of discovery, El Boleo mine, on the Baja Peninsula, near Santa Rosalia, Mexico.^[3]

Minerals associated with boleite include pseudoboleite, cumengeite, atacamite, anglesite, cerussite, phosgenite and gypsum at the type locality in Boleo, Mexico. In the Mammoth-St. Anthony mine of Arizona associated minerals include pseudoboleite, anglesite, cerussite, atacamite, paratacamite, leadhillite, paralaurionite, caledonite, phosgenite, matlockite and bideauxite.^[2]

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 Handbook of Mineralogy
^ ^a ^b ^c Mindat.org
^ Webmineral data
^ Martens, W., Williams, P.A., Frost, R.L. (2003) "Raman spectroscopy of the minerals boleite, cumengite, diaboleite and phosgenite – implications for the analysis of cosmetics of a antiquity". Mineralogical Magazine. V.67: 103–111 1^{[permanent dead link‍]}
^ ^a ^b Rouse, Roland C. (1973/01). "The Crystal Structure of boleite – A Mineral Containing Silver Atom Clusters". Journal of Solid State Chemistry 6(1): 86–92 2
^ Weber, Julius (1974). The Formation of Minerals. Van Nostrand Reinhold Company. New York, London. pp. 78–80

External links

Gossner, Bernard (December 1928). "The Crystal form of Boleite" (PDF). The American Mineralogist. 13: 580–582.
Cooper, Mark A.; Hawthorne, Frank C. (August 2000). "Boleite: Resolution of the Formula, KPb₂₆Ag₉Cu₂₄Cl₆₂(OH)₄₈". The Canadian Mineralogist. 38 (4): 801–808. Bibcode:2000CaMin..38..801C. doi:10.2113/gscanmin.38.4.801.
Parker, Robert L. (1981). Rocks and Mineral Deposits. W.H. Freeman and Company. San Francisco. 343–422.
Pirsson, Louis V. (1964). Rocks and Rock Minerals. John Wiley & Sons, Inc. New York, London. 34–56
Williams, Peter A., Thomas, John H., Humphries, Alun, Samad, Abdul F. (1981). “Chemical Studies on the Stabilities of Boleite and Pseudoboleite”. Mineralogical Magazine v.44: 101–104 3^{[permanent dead link‍]}
link to cryptohalite Archived 2021-12-02 at the Wayback Machine

[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.

[HBM-2] Handbook of Mineralogy

[Mindat-3] Mindat.org

[Webmin-4] Webmineral data

[5] Martens, W., Williams, P.A., Frost, R.L. (2003) "Raman spectroscopy of the minerals boleite, cumengite, diaboleite and phosgenite – implications for the analysis of cosmetics of a antiquity". Mineralogical Magazine. V.67: 103–111 1^{[permanent dead link‍]}

[Rouse-6] Rouse, Roland C. (1973/01). "The Crystal Structure of boleite – A Mineral Containing Silver Atom Clusters". Journal of Solid State Chemistry 6(1): 86–92 2

[7] Weber, Julius (1974). The Formation of Minerals. Van Nostrand Reinhold Company. New York, London. pp. 78–80

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