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Getchellite

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Getchellite
Getchellite from Khaidarkan, Fergana Valley, Osh Oblast, Kyrgyzstan. Specimen size 3.6 cm.
General
CategorySulfide mineral
Formula
(repeating unit)
AsSbS3
IMA symbolGet[1]
Strunz classification2.FA.35
Dana classification2.11.1.2
Crystal systemMonoclinic
Crystal classPrismatic (2/m)
(same H-M symbol)
Space groupP21/a
Identification
Formula mass293.81 g/mol
ColorDark red, sometimes with a purple to green iridescent tarnish
Crystal habitSubhedral crystals and massive with a platy texture
TwinningSimple and polysynthetic twins with the twin plane and composition plane parallel to {001}
CleavagePerfect on {001}
FractureSplintery
TenacitySectile; cleavage flakes are flexible and inelastic
Mohs scale hardness1.5 to 2
LusterVitreous to pearly on cleavage surfaces, otherwise resinous
StreakOrange red
DiaphaneityTransparent
Specific gravity3.92 (observed) 4.0 (calculated)
Optical propertiesBiaxial (+), 2V=46°
Refractive indexn = 2.720. Dispersion r > v strong
Melting point340 °C to 355 °C
Other characteristicsNot radioactive
References[2][3][4]
Red Getchellite and yellow Orpiment from the Getchell Mine, the type locality.

Getchellite is a rare sulfide of arsenic and antimony, AsSbS3, that was discovered by B. G. Weissberg of the New Zealand Department of Scientific and Industrial Research in 1963, and approved as a new species by the International Mineralogical Association in 1965. Many metal sulfides are grey to black, but a few are brightly colored. Orpiment is yellow to brownish gold, cinnabar is deep red and getchellite is a bright orange red.

Thermal properties

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Getchellite turns darker red when heated, becoming black by the time it reaches its melting point. Close to this temperature it sublimes (changes directly from a solid to a vapor) and recrystallizes on cooler surfaces as minute acicular black crystals.
Melting point: 340 °C to 355 °C. Boiling point: near 470 °C.[5]

Structure

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Each of the semimetal atoms, arsenic and antimony, is bonded to three sulfur atoms to form a trigonal pyramid characteristic of elements in group V of the periodic table. These (As,Sb)S3 pyramids form 8-membered (As,Sb)8S8 rings which in turn combine to form sheets parallel to (001), with each sulfur atom bonded to two semimetal atoms.[6] The occupancy of the metal sites is disordered, and within the sheets the 8-membered rings are orientated normal to the plane of the sheet. The sheet structure is responsible for the cleavage and twin planes of getchellite[7] Unit cell a = 11.949 Å; b = 9.028 Å; c = 10.130 Å; β= 116.15°; V = 980.9 Å3; Z = 8.[6] Space group P21/a.[8]

Powder diffraction

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X-Ray Powder Diffraction:[5]
d spacing 2.89 4.44 3.63 2.54 2.33
relative intensity 10 8 7 6 6

Discovery

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In August 1962 Weissberg visited the Getchell mine at Adam Peak, about 32 km northeast of Golconda, in Humboldt County, Nevada, US. The purpose of his visit was to collect samples for a study of the relationship between various fairly common sulfides, not to look for new minerals. Getchellite was in some of the samples, but it was not discovered until the rocks were re-examined, a year later. The new mineral was named after the Getchell Mine, which in turn became the type locality.[5] Samples from the mine are preserved as type material (a reference material for the mineral), at the Smithsonian National Museum of Natural History, Washington, D.C., US.[9]

Environment

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At the type locality getchellite is found in an epithermal (formed at low temperature) arsenical gold deposit in a narrow, steeply dipping fault zone cutting across interbedded shales, argillites (lithified muds and oozes) and limestones, near an intrusion of granodiorite.
Associated minerals are orpiment, realgar, stibnite, cinnabar and quartz,[5] as well as galkhaite, laffittite, chabournéite, christite, lorandite, marcasite, barite, fluorite and calcite.[4]

Distribution

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Getchellite is found at the type locality in Nevada, United States, and also in Azerbaijan, China, Iran, Japan, Kyrgyzstan and Russia.[3]

Synthesis

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Getchellite has been synthesized from As3SbS6 glass in sodium sulfide solutions at 2600 C. and 1,000 bars pressure.[5]

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. ^ "Getchellite Mineral Data".
  3. ^ a b http://www.mindat.org/min-1686.html Mindat.org
  4. ^ a b http://rruff.geo.arizona.edu/doclib/hom/getchellite.pdf Handbook of Mineralogy
  5. ^ a b c d e Weissberg, B G, American Mineralogist (1965) Volume 50 pages 1817 to 1826
  6. ^ a b Kyono, Atsushi; Kimata, Mitsuyoshi (2004). "Structural reinvestigation of getchellite As0.98Sb1.02S3.00". American Mineralogist. 89 (5–6): 696–700. Bibcode:2004AmMin..89..696K. doi:10.2138/am-2004-5-603. S2CID 101745540.
  7. ^ Guillermo, T.R.; Wuensch, B.J. (November 1973). "The crystal structure of getchellite, AsSbS3". Acta Crystallographica. B29 (11): 2536–2541. doi:10.1107/S0567740873006965.
  8. ^ Gaines et Al (1997) Dana's New Mineralogy Eighth Edition, Wiley
  9. ^ "Mineral Sciences Collections Search".