Michalskiite

Where it forms, where it's found

Geological setting: A secondary alteration product probably formed at low temperature under oxidizing conditions.
Type locality: Lichtenberg Absetzer dump
Kauern
Greiz District
Thuringia
Germany
50.8394°, 12.1573°

1recorded occurrences

Source · OpenStreetMap

Physical

1Talc
2Gypsum
3Calcite
4Fluorite
5Apatite
6Orthoclase
7Quartz
8Topaz
9Corundum
10Diamond

Transparent

Brown-red

Light orange

brittle

Very Good

Very good on (001)

Fracture: Curved

3.848 g/cm³

Optical

Optical type: Biaxial (-) · 2V measured = 49° · 2V calc = 52.3°
Refractive index: 2.12 – 2.17
Surface relief: Very high
Principal indices: n_α 2.12 · n_β 2.16 · n_γ 2.17
Birefringence: β – α = 0.04(1) and γ – α = 0.05(1).
Pleochroism: Non-pleochroic
Dispersion: Could not be observed.
Extinction: X = c
UV response: Not fluorescent.
Notes: Refractive indices could not be measured directly. The average index of refraction calculated using the Gladstone-Dale relation is 2.150.

Michel-Lévy diagramhighlighted lineδ = 0.0400

Attainable Michel-Lévy rangeΔ ∈ [0, t·δ_max]400 nm1st order

Δ = 0Δ_max

Section thickness10 μmStage rotation0°

Thin-section mosaic70 grains · random 3D orientations

PPL

pleochroism per grain

XPL

independent extinctions · rotate the stage

Interference simulatorsingle grain · PPL ↔ XPL

PPL

pleochroism only · colour blends on rotation

XPL

interference colour · extinct every 90°

Retardation400 nm

Order1st order

XPL colour

Crystallography

Crystal system: Orthorhombic
Cell parameters: a = 10.2356(9) Å · b = 17.369(2) Å · c = 4.9406(6) Å
Ratio a:b:c: 1 : 1.697 : 0.483
Morphology: Type material: Striated prisms and needles with rectangular cross-sections. Crystal faces are sometimes rounded, appearing “melted”. Elongated on [001]. No forms were measured, but (100) and (010) are likely.
Type-locality form: Striated prisms and needles, up to about 0.2 mm long, with rectangular cross-sections. Crystal faces are sometimes rounded, appearing “melted”.
Comment: The space group is Pmcn

Crystal structure

Chemical composition

Constituent elements: Mass composition breakdown
Element Atoms At. mass g/mol Mass g/mol Mass share
8OOxygen Oxygen 24 15.999 383.976
37.94%
23VVanadium Vanadium 6 50.942 305.652
30.20%
26FeIron Iron 3.33 55.845 185.964
18.38%
12MgMagnesium Magnesium 3 24.305 72.915
7.20%
29CuCopper Copper 1 63.546 63.546
6.28%
Total 1012.053 100.00%
Mass share = atoms × atomic mass ÷ molar mass × 100
From IMA formula

Mass composition breakdown
Element	Atoms	At. mass g/mol	Mass g/mol	Mass share
8OOxygen	Oxygen	24	15.999	383.976	37.94%
23VVanadium	Vanadium	6	50.942	305.652	30.20%
26FeIron	Iron	3.33	55.845	185.964	18.38%
12MgMagnesium	Magnesium	3	24.305	72.915	7.20%
29CuCopper	Copper	1	63.546	63.546	6.28%
	Total	1012.053	100.00%

Synonyms

Michalskiiet

In other languages

German: IMA 2019-062 · Michalskiit

Classification

Strunz

10th ed.

8.AB.40

8Phosphates, Arsenates, VanadatesClass
8.APhosphates, etc. without additional anions, without H₂ODivision
8.ABWith medium-sized cationsGroup
8.AB.40MichalskiiteSpecies

Group, growth & confusion

1 mineral

LyonsiteCu²⁺₃Fe³⁺₄(VO₄)₆
Mineral
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Literature, links & citation

Citations

2020Miyawaki, Ritsuro, Hatert, Frédéric, Pasero, Marco, Mills, Stuart J. (2020) IMA Commission on New Minerals, Nomenclature and Classification (CNMNC) - Newsletter 52. European Journal of Mineralogy, 32 (1) 1-11 doi:10.5194/ejm-32-1-2020 DOI: 10.5194/ejm-32-1-2020
2022Kampf, A. R., Plášil, J., Škoda, R., Čejka, J. (2022) Michalskiite, Cu²⁺Mg₃Fe³⁺_3.33(VO₄)₆, an Mg analogue of lyonsite, from the Ronneburg uranium deposit, Thuringia, Germany. Journal of GEOsciences, 67 (1) 33-40
2022(2022) Michalskiite. Handbook of Mineralogy. Mineralogical Society of America

Cite this entry

@misc{mineral2026,
  author    = {Mineral Index editorial board},
  title     = {Michalskiite — Mineral Index},
  year      = {2026},
  url       = {https://mineralindex.org/minerals/michalskiite-54028},
  note      = {Accessed 2026-05-11}
}