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Molybdenite

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Molybdenite
Euhedral molybdenite on quartz, Molly Hill mine, Quebec, Canada. The large crystal is 15 mm across
General
CategorySulfide mineral
Formula
(repeating unit)
Molybdenum disulfide (MoS2)
IMA symbolMol[1]
Strunz classification2.EA.30
Crystal systemCommon, 2H polytype: hexagonal
3R polytype: trigonal
Crystal class2H polytype: dihexagonal dipyramidal (6/mmm)
3R polytype: Ditrigonal pyramidal (3m)
Space group2H polytype: P63/mmc
3R polytype: R3m
Unit cell2H polytype: a = 3.16 Å,
c = 12.3 Å; Z = 2
3R polytype: a = 3.16 Å,
c = 18.33 Å; Z = 3
Identification
ColorBlack, lead-silvery gray
Crystal habitThin, platy hexagonal crystals terminated by pinacoidal faces, also as tapering six-sided pyramids that can be truncated by the pinacoids. Also massive, lamellar and in small grains in sulfide ore bodies
CleavagePerfect on [0001]
TenacityLamellae flexible, not elastic
Mohs scale hardness1–1.5
LusterMetallic
StreakBluish gray
DiaphaneityNearly opaque; translucent in thin flakes
Specific gravity4.73
PleochroismVery strong
FusibilityInfusible (decomposes at 1185 °C)
Other characteristicsIt has a greasy feel and leaves marks on fingers
References[2][3][4][5][6]

Molybdenite is a mineral of molybdenum disulfide, MoS2. Similar in appearance and feel to graphite, molybdenite has a lubricating effect that is a consequence of its layered structure. The atomic structure consists of a sheet of molybdenum atoms sandwiched between sheets of sulfur atoms. The Mo-S bonds are strong, but the interaction between the sulfur atoms at the top and bottom of separate sandwich-like tri-layers is weak, resulting in easy slippage as well as cleavage planes. Molybdenite crystallizes in the hexagonal crystal system as the common polytype 2H and also in the trigonal system as the 3R polytype.[3][4][7]

Description

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Occurrence

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A less pure sample of molybdenite mineral

Molybdenite occurs in high temperature hydrothermal ore deposits. Its associated minerals include pyrite, chalcopyrite, quartz, anhydrite, fluorite, and scheelite. Important deposits include the disseminated porphyry molybdenum deposits at Questa, New Mexico and the Henderson and Climax mines in Colorado. Molybdenite also occurs in porphyry copper deposits of Arizona, Utah, and Mexico.

Molybdenite under normal and polarized light

The element rhenium is always present in molybdenite as a substitute for molybdenum, usually in the parts per million (ppm ) range, but often up to 1–2%. High rhenium content results in a structural variety detectable by X-ray diffraction techniques. Molybdenite ores are essentially the only source for rhenium. The presence of the radioactive isotope rhenium-187 and its daughter isotope osmium-187 provides a useful geochronologic dating technique.

Features

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Crystal structure of molybdenite

Molybdenite is extremely soft with a metallic luster, and is superficially almost identical to graphite, to the point where it is not possible to positively distinguish between the two minerals without scientific equipment. It marks paper in much the same way as graphite. Its distinguishing feature from graphite is its higher specific gravity, as well as its tendency to occur in a matrix.

Uses

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Molybdenite is an important ore of molybdenum, and is the most common source of the metal.[4] While molybdenum is rare in the Earth's crust, molybdenite is relatively common and easy to process, and accounts for much of the metal's economic viability. Molybdenite is purified by froth flotation, and then oxidized to form soluble molybdate. Reduction of ammonium molybdate yields pure molybdenum metal, which is used for fertilizer, as a catalyst, and in battery electrodes. By far the most common use of molybdenum is as an alloy with iron. Ferromolybdenum is an important component of high strength and corrosion-resistant steel.

Semiconductor

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Multilayer molybdenite flakes are semiconductors with an indirect bandgap. In contrast, monolayer flakes have a direct gap.[8] In the early years of the 20th century, molybdenite was used in some of the first crude semiconductor diodes, called cat's whisker detectors, which served as a demodulator in early crystal radios. Monolayer molybdenite shows good charge carrier mobility and can be used to create small or low-voltage transistors.[9] The transistors can detect and emit light and may have future use in optoelectronics.[10]

See also

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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. ^ Mineralienatlas
  3. ^ a b Handbook of Mineralogy
  4. ^ a b c Mindat.org
  5. ^ Webmineral data for Molybdenite
  6. ^ Dana's Manual of Mineralogy ISBN 0-471-03288-3
  7. ^ Molybdenite 3R on Mindat
  8. ^ Mak, Kin Fai; Lee, Changgu; Hone, James; Shan, Jie; Heinz, Tony F. (24 Sep 2010). "Atomically Thin MoS2: A New Direct-Gap Semiconductor". Physical Review Letters. Vol. 105, no. 13. doi:10.1103/PhysRevLett.105.136805.
  9. ^ "Molybdenite transistor is a first". 8 Feb 2011. Archived from the original on 10 December 2011. Retrieved 12 February 2011.
  10. ^ First light from molybdenite transistors. 19 Apr 2013
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