Ferricopiapite

Where it forms, where it's found

Geological setting: Oxidation zone of pyrite deposits in arid environments.
Type locality: Atacama
Chile

55recorded occurrences

Source · OpenStreetMap

Physical

Hardness: 1Talc
2Gypsum
3Calcite
4Fluorite
5Apatite
6Orthoclase
7Quartz
8Topaz
9Corundum
10Diamond
Colour: Yellow · yellow-orange
Cleavage: Perfect
Perfect on (010)
Density: 2.14 g/cm³

Optical

Optical type: Biaxial (+) · 2V measured = 69 – 80°
Refractive index: 1.496 – 1.592
Surface relief: Moderate
Principal indices: n_α 1.496 – 1.53 · n_β 1.531 – 1.55 · n_γ 1.579 – 1.592
Pleochroism: Visible
Shades of yellow
Dispersion: relatively strong r > v

Michel-Lévy diagramhighlighted lineδ = 0.0725

Attainable Michel-Lévy rangeΔ ∈ [0, t·δ_max]725 nm2nd 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°

Retardation725 nm

Order2nd order

XPL colour

Crystallography

Crystal system: Triclinic
Space group: #2
Cell parameters: a = 7.394(5) Å · b = 18.36(2) Å · c = 7.324(8) Å
Cell angles: α = 93.8(1) ° · β = 102.2(1) ° · γ = 98.9(1) °
Ratio a:b:c: 1 : 2.483 : 0.991
Z: 1
Morphology: Pseudo-orthorhombic plates; scaly, granular aggregates.

Crystal structure

Chemical composition

Constituent elements: Mass composition breakdown
Element Atoms At. mass g/mol Mass g/mol Mass share
8OOxygen Oxygen 46 15.999 735.954
59.76%
26FeIron Iron 4.67 55.845 260.796
21.18%
16SSulfur Sulfur 6 32.060 192.360
15.62%
1HHydrogen Hydrogen 42 1.008 42.336
3.44%
Total 1231.446 100.00%
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	46	15.999	735.954	59.76%
26FeIron	Iron	4.67	55.845	260.796	21.18%
16SSulfur	Sulfur	6	32.060	192.360	15.62%
1HHydrogen	Hydrogen	42	1.008	42.336	3.44%
	Total	1231.446	100.00%

Synonyms

Challantite
Ferricopiapiet
Ferrocopiapita
Ferrocopiapite

In other languages

German: Ferricopiapit
Italian: Ferricopiapite

Classification

Strunz

10th ed.

7.DB.35

7SulfatesClass
7.DSulfates (selenates, etc.) with additional anions, with H₂ODivision
7.DBWith only medium-sized cations; insular octahedra and finite unitsGroup
7.DB.35FerricopiapiteSpecies

Dana

8th ed.

31.10.05.04

31Hydrated Sulfates Containing Hydroxyl or HalogenClass
31.10MiscellaneousType
31.10.05Copiapite GroupGroup
31.10.05.04FerricopiapiteSpecies

CIM

—

25.10.12

25SulphatesClass
25.10Sulphates of Fe aloneGroup
25.10.12FerricopiapiteSpecies

Group, growth & confusion

6 members

Literature, links & citation

Citations

1938Berry, L.G. (1938) Composition and optics of copiapite. in Nineteenth Annual Meeting, Mineralogical Society of America, Waldorf-Astoria Hotel, New York City, December 28-30, 1938, Program, abstracts, and time schedule for presentation of papers. American Mineralogist: 23(12)pt2: 3-3.
1939(1939) American Mineralogist : 24: 182.
1947Berry, L.G. (1947) Composition and optics of copiapite. University of Toronto Studies: VI. Geological Series, 51, 21-34.
1951Palache, Charles; Berman, Harry; Frondel, Clifford (1951) The System of Mineralogy (7th ed.) Vol. 2 - Halides, Nitrates, Borates, Carbonates, Sulfates, Phosphates, Arsenates, Tungstates, Molybdates, Etc. John Wiley and Sons.
1973Fanfani, Luca, Nunzi, Antonio, Zanazzi, Pier Francesco, Zanzari, and Anna Rosa (1973) The copiapite problem: The crystal structure of a ferrian copiapite. American Mineralogist, 58 (3-4) 314-322

Cite this entry

@misc{mineral2026,
  author    = {Mineral Index editorial board},
  title     = {Ferricopiapite — Mineral Index},
  year      = {2026},
  url       = {https://mineralindex.org/minerals/ferricopiapite-1490},
  note      = {Accessed 2026-05-11}
}