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Contents

   



(Top)
  


1 Description  


1.1  Structure and composition  






2 Occurrences  




3 References  













Lepidolite






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From Wikipedia, the free encyclopedia
  

Lepidolite
General
CategoryPhyllosilicate
Formula
(repeating unit)		K(Li,Al)3(Al,Si,Rb)4O10(F,OH)2
IMA symbolLpd[1]
Strunz classification9.EC.20
Crystal systemMonoclinic
Crystal classPrismatic (2/m)
(same H-M symbol)
Space groupC2/m, Cm
Unit cella = 5.209(2Å, b = 9.011(5) Å,
c = 10.149(5) Å;
β = 100:77(4)°; Z = 2
Identification
ColorPink, light purple, purple, rose-red, violet-gray, yellowish, white, colorless other colors possible but are rare.
Crystal habitTabular to prismatic pseudohexagonal crystals, scaly aggregates and massive
TwinningRare, composition plane {001}
Cleavage{001} perfect
FractureUneven
Mohs scale hardness2.5–3
LusterVitreous to pearly
StreakWhite
DiaphaneityTransparent to translucent
Specific gravity2.8–2.9
Optical propertiesBiaxial (−)
Refractive indexnα=1.525–1.548, nβ=1.551–1.58, nγ=1.554–1.586
Birefringence0.0290–0.0380
PleochroismX = almost colorless; Y = Z = pink, pale violet
2V angle0° – 58° measured
References[2][3]

Lepidolite is a lilac-gray or rose-colored member of the mica group of minerals with chemical formula K(Li,Al)3(Al,Si,Rb)4O10(F,OH)2.[2][3] It is the most abundant lithium-bearing mineral[4] and is a secondary source of this metal. It is the major source of the alkali metal rubidium.

Lepidolite is found with other lithium-bearing minerals, such as spodumene, in pegmatite bodies. It has also been found in high-temperature quartz veins, greisens and granite.

Description[edit]

Lepidolite is a phyllosilicate mineral[5] and a member of the polylithionite-trilithionite series.[6] Lepidolite is part of a three-part series consisting of polylithionite, lepidolite, and trilithionite. All three minerals share similar properties and are caused because of varying ratios of lithium and aluminum in their chemical formulas. The Li:Al ratio varies from 2:1 in polylithionite up to 1.5:1.5 in trilithionite.[7][8]

Lepidolite is found naturally in a variety of colors, mainly pink, purple, and red, but also gray and, rarely, yellow and colorless. Because lepidolite is a lithium-bearing mica, it is often wrongly assumed that lithium is what causes the pink hues that are so characteristic of this mineral. Instead, it is trace amounts of manganese that cause the pink, purple, and red colors.[9][10]

Structure and composition[edit]

Lepidolite belongs to the group of trioctahedral micas,[8] with a structure resembling biotite. This structure is sometimes described as TOT-c. The crystal consists of stacked TOT layers weakly bound together by potassium ions (c). Each TOT layer consists of two outer T (tetrahedral) sheets in which silicon or aluminium ions each bind with four oxygen atoms, which in turn bind to other aluminium and silicon to form the sheet structure. The inner O (octahedral) sheet contains iron or magnesium ions each bonded to six oxygen, fluoride, or hydroxide ions. In biotite, silicon occupies three out of every four tetrahedal sites in the crystal and aluminium occupies the remaining tetrahedral sites, while magnesium or iron fill all the available octahedral sites.[11]

Lepidolite shares this structure, but aluminium and lithium substitute for magnesium and iron in the octahedral sites. If nearly equal quantities of aluminium and lithium occupy the octahedral sites, the resulting mineral is trilithionite, KLi1.5Al1.5(AlSi3)O10(F,OH)2 If lithium occupies two out of three octahedral sites and aluminium the remaining octahedra site, then charge balance can be preserved only if silicon occupies all the tetrahedral sites. The result is polylithionite, KLi2AlSi4O10(F,OH)2. Lepidolite has a composition intermediate between these end members.[8]

Fluoride ions can substitute for some of the hydroxide in the structure, while sodium, rubidium, or caesium may substitute in small quantities for potassium.[12]

Occurrences[edit]

Lepidolite is associated with other lithium-bearing minerals like spodumeneinpegmatite bodies. It is the major source of the alkali metal rubidium.[13] In 1861, Robert Bunsen and Gustav Kirchhoff extracted 150 kg (330 lb) of lepidolite to yield a few grams of rubidium salts for analysis, and therefore discovered the new element rubidium.[14][15]

It occurs in granite pegmatites, in some high-temperature quartz veins, greisens and granites. Associated minerals include quartz, feldspar, spodumene, amblygonite, tourmaline, columbite, cassiterite, topaz and beryl.[2]

Notable occurrences include Brazil; Ural Mountains, Russia; California, United States; Tanco Mine, Bernic Lake, Manitoba, Canada; and Madagascar.[2]

References[edit]

Wikimedia Commons has media related to Lepidolite.
  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.
  • ^ a b c d Anthony, John W.; Bideaux, Richard A.; Bladh, Kenneth W.; Nichols, Monte C. (2005). "Lepidolite" (PDF). Handbook of Mineralogy. Mineral Data Publishing. Retrieved 14 March 2022.
  • ^ a b Barthelmy, David (2014). "Lepidolite Mineral Data". Webmineral.com. Retrieved 19 March 2022.
  • ^ Deer, W.A.; Howie, R.A.; Zussman, J. (1966). An Introduction to the Rock Forming Minerals. London: Longman. p. 218. ISBN 0-582-44210-9.
  • ^ Hurlbut, Cornelius S.; Klein, Cornelis (1985), Manual of Mineralogy, Wiley, (20th ed.) ISBN 0-471-80580-7
  • ^ Lepidolite on Mindat.org
  • ^ Polylithionite-Trilithionite Series, Mindat.org
  • ^ a b c Rieder, M.; Cavazzini, G.; D’yakonov, Yu. S.; Frank-Kamenetskii, V. A.; Gottardi, G.; Guggenheim, S.; Koval’, P. V.; Müller, G.; Neiva, A. M. R.; Radoslovich, E. W.; Robert, J.-L.; Sassi, F. P.; Takeda, H.; Weiss, Z.; Wones, D. R. (April 1999). "Nomenclature of the micas". Mineralogical Magazine. 63 (2): 267–279. Bibcode:1999MinM...63..267R. doi:10.1180/minmag.1999.063.2.13. S2CID 62814673.
  • ^ King, Hobart M. "Lepidolite: A pink to purple mica, a source of lithium, an ornamental stone, a gem material". geology.com. Retrieved 19 March 2022.
  • ^ London, David (4 March 2017). "Reading Pegmatites: Part 3—What Lithium Minerals Say". Rocks & Minerals. 92 (2): 144–157. Bibcode:2017RoMin..92..144L. doi:10.1080/00357529.2017.1252636. S2CID 132383641.
  • ^ Klein, Cornelis; Hurlbut, Cornelius S. Jr. (1993). Manual of mineralogy : (after James D. Dana) (21st ed.). New York: Wiley. pp. 498–507. ISBN 047157452X.
  • ^ Klein & Hurlbut 1993, p. 519.
  • ^ Wise, M. A. (1995). "Trace element chemistry of lithium-rich micas from rare-element granitic pegmatites". Mineralogy and Petrology. 55 (13): 203–215. Bibcode:1995MinPe..55..203W. doi:10.1007/BF01162588. S2CID 140585007.
  • ^ G. Kirchhoff, R. Bunsen (1861). "Chemische Analyse durch Spectralbeobachtungen" (PDF). Annalen der Physik und Chemie. 189 (7): 337–381. Bibcode:1861AnP...189..337K. doi:10.1002/andp.18611890702.
  • ^ Weeks, Mary Elvira (1932). "The discovery of the elements. XIII. Some spectroscopic discoveries". Journal of Chemical Education. 9 (8): 1413–1434. Bibcode:1932JChEd...9.1413W. doi:10.1021/ed009p1413.

    • Retrieved from "https://en.wikipedia.org/w/index.php?title=Lepidolite&oldid=1196916073"
    Categories: 
    Phyllosilicates
     Lithium minerals
     Potassium minerals
     Aluminium minerals
     Monoclinic minerals
     Minerals in space group 8
     Minerals in space group 12
     Mica group
     Luminescent minerals
     Gemstones
     Rubidium compounds
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