From Surf Wiki (app.surf) — the open knowledge base

Kröhnkite

Rare copper sulfate mineral

Summary

Rare copper sulfate mineral

Field	Value
name	Kröhnkite
category	Sulfate mineral
image	Krohnkite-21581.jpg
imagesize	260px
formula	Na2Cu(SO4)2•2H2O
IMAsymbol	Khk
strunz	7.CC.30
system	Monoclinic
class	Prismatic (2/m)
(same H-M symbol)
symmetry	P21/c
unit cell	a = 5.78 Å, b = 12.58 Å
c = 5.48 Å; β = 108.3°; Z = 2
color	Blue, dark sky blue, greenish blue, yellowish green
habit	Encrustations (on matrix), fibrous, massive
twinning	Common, sometimes heart-shaped
cleavage	Perfect {010}, good (011), very imperfect {101}
fracture	Conchoidal
mohs	2.5 – 3.0
luster	Vitreous
refractive	nα = 1.544 nβ = 1.578 nγ = 1.601
opticalprop	Biaxial (-)
birefringence	0.057
2V	78° measured
streak	White
gravity	2.92
solubility	Readily soluble in water
diaphaneity	Transparent
references

(same H-M symbol) c = 5.48 Å; β = 108.3°; Z = 2 Kröhnkite ( Na2Cu(SO4)2•2H2O ) is a rare copper sulfate mineral named after B. Kröhnke who first researched it. Kröhnkite may be replaced by Saranchinaite, the anhydrous form of the mineral, if heated to temperatures above 200 °C (392 °F).

Crystallography

Kröhnkite has monoclinic symmetry (2/m). Monoclinic symmetry implies that the mineral contains three axes of differing length (typically labeled a, b, and c), two of which intersect each other at 90° and one that intersects at an acute angle. Specifically, it belongs to the 2/m symmetry class meaning, the mineral has a 2-fold rotation axis about the b axis. It also has a unique motif of sulfate tetrahedra chains and copper octahedra aligned along the c axis and linked together by sodium atoms. Kröhnkite exhibits the optical property birefringence; the difference in the two refractive indices of a mineral. Because this mineral is birefringent, it must be anisotropic. Anisotropic minerals cause the velocity of light to vary depending on the direction of travel through the mineral. Kröhnkite is biaxial negative, which reveals that the mineral has two optic axes.

Importance

Kröhnkite has the same general formula ( (X2M(TO4)2(H2O)2) ) as minerals which are found in environments affected by hydrothermal alteration, making it important in identifying where such alterations have occurred. Furthermore, the minerals sharing this composition are organized according to three crystal structure types, one being the unique kröhnkite structure which is often used to describe minerals exhibiting the same chain-like structure.

Discovery and occurrence

Kröhnkite was first researched after an occurrence in the Chuquicamata Mine, Chile, and has been reported from a number of locations in the Atacama region. Associated minerals in the discovery location include atacamite, blodite, chalcanthite, antlerite and natrochalcite. It occurs in the oxidized zone of copper deposits in arid environments.

References

Warr, L.N.. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine.
"Kröhnkite Mineral Data." http://webmineral.com/data/Krohnkite.shtml. Accessed 28 November 2010.
{{mindat
(15 June 1975). "Refinement of the crystal structure of kröhnkite". Acta Crystallographica Section B: Structural Crystallography and Crystal Chemistry.
(1996). "Crystallography". John Wiley.
(1 October 2006). "The topology of hydrogen bonding in brandtite, collinsite and fairfieldite". The Canadian Mineralogist.
(2005). "Kröhnkite". Mineral Data Publishing.

Wikipedia Source

This article was imported from Wikipedia and is available under the Creative Commons Attribution-ShareAlike 4.0 License. Content has been adapted to SurfDoc format. Original contributors can be found on the article history page.

sulfate-minerals copper(ii)-minerals monoclinic-minerals minerals-in-space-group-14

Want to explore this topic further?

Ask Mako anything about Kröhnkite — get instant answers, deeper analysis, and related topics.

Research with Mako

Free with your Surf account

Content sourced from Wikipedia, available under CC BY-SA 4.0.

This content may have been generated or modified by AI. CloudSurf Software LLC is not responsible for the accuracy, completeness, or reliability of AI-generated content. Always verify important information from primary sources.

Report