The topic of Chrysocolla is one that has generated great interest in today's society. It is an issue that affects us all in one way or another, whether directly or indirectly. Without a doubt, it is a topic that has generated conflicting opinions and has been the subject of numerous debates. In this article, we will analyze Chrysocolla in detail and its implications in our daily life. We will explore different perspectives and seek to better understand this issue that concerns us so much.
Chrysocolla | |
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General | |
Category | Phyllosilicate minerals, mineraloids |
Formula (repeating unit) | Cu2 − xAlx(H2Si2O5)(OH)4·nH2O (x < 1) |
IMA symbol | Ccl |
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 (blue-green), green, dark blue to black, brown, 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 (7 for 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 |
Chrysocolla (/ˌkrɪsəˈkɒlə/ KRIS-ə-KOL-ə) is a hydrous copper phyllosilicate mineral and mineraloid with the formula Cu
2 – xAl
x(H
2Si
2O
5)(OH)
4⋅nH
2O (x < 1) or (Cu, Al)
2H
2Si
2O
5(OH)
4⋅nH
2O).
The structure of the mineral has been questioned, as a 2006 spectrographic study suggest material identified as chrysocolla may be a mixture of the copper hydroxide spertiniite and chalcedony.
The name chrysocolla comes from the Ancient Greek χρυσός (khrusós) and κολλα (kolla), meaning "gold" and "glue" respectively, in allusion to the name of the material used to solder gold. The word was first used by Theophrastus in 315 BC.
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.
A 2006 study has produced evidence that chrysocolla may be a microscopic mixture of the copper hydroxide mineral spertiniite, amorphous silica and water.
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, 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.