Chrysocolla

Chrysocolla
	Chrysocolla, Ray Mine, Scott Mountain area, Mineral Creek District, Pinal County, Arizona, USA
General
Category	Phyllosilicate mineral
Formula; (repeating unit)	Cu; 2–xAl; x{H; 2–xSi; 2O; 5)(OH); 4•nH; 2O (x<1)[1]
Strunz classification	9.ED.20
Crystal system	Orthorhombic ; Unknown space group
Unit cell	a = 5.7 Å, b = 8.9 Å, ; c = 6.7 Å; Z = 1
Identification
Color	Blue, cyan or blue-green, green, blackish blue to black, or brown and rarely yellow
Crystal habit	Massive, nodular, botryoidal
Cleavage	none
Fracture	Irregular/uneven, sub-conchoidal
Tenacity	Brittle to sectile
Mohs scale hardness	2.5 - 3.5 ( or 7 - chrysocolla chalcedony, high silica content )
Luster	Vitreous to dull
Streak	white to a blue-green color
Diaphaneity	Translucent to opaque
Specific gravity	1.9 - 2.4
Optical properties	Biaxial (-)
Refractive index	nα = 1.575 - 1.585 nβ = 1.597 nγ = 1.598 - 1.635
Birefringence	δ = 0.023 - 0.050
References	[2][3][1][4]

Chrysocolla is a hydrated copper phyllosilicate mineral with formula Cu
_2–xAl
_x{H
_2–xSi
₂O
₅)(OH)
₄•nH
₂O (x<1)[1] or (Cu,Al)
₂H
₂Si
₂O
₅(OH)
₄•nH
₂O).[3] The structure of the mineral has been questioned, as spectrographic studies suggest material identified as chrysocolla may be a mixture of the copper hydroxide spertiniite and chalcedony.

History

The name comes from the ancient Greek χρυσός (chrysos) and κολλα (kolla), "gold" and "glue",[5] in allusion to the name of the material used to solder gold, and was first used by Theophrastus in 315 BC.

Geology

Chrysocolla has a cyan (blue-green) color and is a minor ore of copper, having a hardness of 2.5 to 7.0. It is of secondary origin and forms in the oxidation zones of copper ore bodies. Associated minerals are quartz, limonite, azurite, malachite, cuprite, and other secondary copper minerals. It is typically found as botryoidal or rounded masses and crusts, or vein fillings. Because of its light color, it is sometimes confused with turquoise.

Notable occurrences include Bacan Islands, Indonesia, Israel, Democratic Republic of Congo, Chile, Cornwall in England, and Arizona, Utah, Idaho, Colorado, New Mexico, Michigan, and Pennsylvania in the United States.

A 2006 study has produced evidence that chrysocolla may be a microscopic mixture of the copper hydroxide mineral spertiniite, amorphous silica and water.[6][1]

Jewelry

Due to being somewhat more common than turquoise, its wide availability, and vivid, beautiful blue and blue-green colors, chrysocolla has been popular for use as a gemstone for carvings and ornamental use since antiquity. It is often used in silversmithing and goldsmithing in place of turquoise and is relatively easy to work and shape. Chrysocolla exhibits a wide range of Mohs hardness ranging from 2 through 7, which is dependent on the amount of silica incorporated into the stone when it is forming. Generally, dark navy blue chrysocolla is too soft to be used in jewelry, while cyan, green, and blue green chrysocolla can have a hardness approaching 6, which is similar to turquoise. Chrysocolla Chalcedony is a heavily silicified form of chrysocolla that forms in quartz deposits and can be very hard and approach a hardness of 7.[7] [8] [9] [10]

Gallery

Powder-blue chrysocolla as stalactitic growths and as a thin carpet in vugs inside a boulder of nearly solid tyrolite from the San Simon Mine, Iquique Province, Chile (size: 14.1 x 8.0 x 7.8 cm)
Banded white to blue green chrysocolla from Bisbee, Arizona (size: 12.2 x 5.5 x 5.2 cm)
Chrysocolla and Silver Bolo Tie. This chrysocolla specimen is from the Kennecot Copper Mine in Bingham Canyon, West Valley City, Utah

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References

"Chrysocolla: Chrysocolla mineral information and data". www.mindat.org.
"Mineralienatlas - Fossilienatlas".
"Handbook of Mineralogy" (PDF).
Barthelmy, Dave. "Chrysocolla Mineral Data". webmineral.com.
Spencer, Leonard James (1911). "Chrysocolla" . In Chisholm, Hugh (ed.). Encyclopædia Britannica. 6 (11th ed.). Cambridge University Press. p. 320.
François Farges, Karim Benzerara, Gordon E. Brown, Jr.; Chrysocolla Redefined as Spertiniite; SLAC-PUB-12232; 13th International Conference On X-Ray Absorption Fine Structure (XAFS13); July 9-14, 2006; Stanford, California
"Gem Silica: The blue, most valuable variety of chalcedony". geology.com.
"Chrysocolla: The gemstone chrysocolla information and pictures". www.minerals.net.
"Chrysocolla: Multicolor Chrysocolla Gemstone & Jewelry Information - GemSelect".
"Chrysocolla Value, Price, and Jewelry Information - IGS".

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[Mindat-1] "Chrysocolla: Chrysocolla mineral information and data". www.mindat.org.

[2] "Mineralienatlas - Fossilienatlas".

[HBM-3] "Handbook of Mineralogy" (PDF).

[Webmin-4] Barthelmy, Dave. "Chrysocolla Mineral Data". webmineral.com.

[5] Spencer, Leonard James (1911). "Chrysocolla" . In Chisholm, Hugh (ed.). Encyclopædia Britannica. 6 (11th ed.). Cambridge University Press. p. 320.

[6] François Farges, Karim Benzerara, Gordon E. Brown, Jr.; Chrysocolla Redefined as Spertiniite; SLAC-PUB-12232; 13th International Conference On X-Ray Absorption Fine Structure (XAFS13); July 9-14, 2006; Stanford, California

[7] "Gem Silica: The blue, most valuable variety of chalcedony". geology.com.

[8] "Chrysocolla: The gemstone chrysocolla information and pictures". www.minerals.net.

[9] "Chrysocolla: Multicolor Chrysocolla Gemstone & Jewelry Information - GemSelect".

[10] "Chrysocolla Value, Price, and Jewelry Information - IGS".