Studenitsite

Studenitsite
General
Category Phylloborates
Formula
(repeating unit)
NaCa2[B9O14(OH4)]·2H2O
Strunz classification 6.GB.05
Crystal system Monoclinic
Unit cell a = 11.4994 Å, b = 12.5878 Å
c = 10.5297 Å; beta = 99.416°; Z = 4
Identification
Formula mass 528 g/mole
Color Colorless to light dirty-yellow and light grey
Crystal habit Clusters of flattened wedge-shaped crystals
Crystal symmetry Monoclinic - prismatic
H-M symbol (2/m)
Space group: P 21/c
Tenacity Fragile
Mohs scale hardness 5.5–6
Luster Vitreous
Streak White
Diaphaneity Transparent
Specific gravity 2.29
Optical properties Biaxial (+)
Refractive index nα = 1.532 nβ = 1.538 nγ = 1.564
Birefringence δ = 0.032
2V angle Measured: 54°
Other characteristics Named after Studenica, a cloister near the discovery locality.
References [1][2][3]

Studenitsite is a rare borate mineral with chemical formula of NaCa2[B9O14(OH)4]·2H2O.

Studenitsite has a vitreous luster, a Mohs hardness of 6 and color of light-dirty yellow.[1] It is a monoclinic mineral and belongs to the space group P2/c.[4] The basic unit of the crystal structure[B9O14(OH)4]5-layers has a Miller Index of (001).[4] Studenitsite has a low surface relief, which means the measure of the relative difference between the index of refraction of the mineral and surrounding medium is small. Birefringence is the difference between two principal indices of refraction of a uniaxial crystal. Studenitsite has a maximum birefringent value of δ = 0.032. Studenitsite has three indices of refraction. Their values are nα = 1.532, nβ = 1.538, nγ = 1.564. Indices of refraction are the ratio of the light's speed in the mineral and the medium.[1]

Studenitsite is an extremely rare mineral that has only been found in the Piskaya deposit, Yarondolskii Basin, on the Ibar River, 280 km south of Belgrade, Serbia. The deposit is classified as a volcanogenic-sedimentary borate deposit with clay and carbonate minerals.[2][3] It occurs associated with colemanite, howlite, ulexite and pentahydroborite.[3] It is a rare but important mineral for understanding the volcanic settings in Western Serbia.[5] It was named after the Studenica cloister near the discovery location.[3]

See also

References

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