Malachite
A valid IMA mineral species - grandfathered
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About Malachite
Formula:
Cu2(CO3)(OH)2
Colour:
Bright green, with crystals deeper shades of green, even very dark to nearly black; green to yellowish green in transmitted light.
Lustre:
Silky, Earthy
Hardness:
3½ - 4
Specific Gravity:
3.6 - 4.05
Crystal System:
Monoclinic
Member of:
Name:
Named in antiquity (see Pliny the Elder, 79 CE) molochitus after the Greek μαλαχή, "mallows," in allusion to the green color of the leaves. Known in the new spelling, malachites, at least by 1661.
Malachite is a green, very common secondary copper mineral with a widely variable habit. Typically it is found as crystalline aggregates or crusts, often banded in appearance, like agates. It is also often found as botryoidal clusters of radiating crystals, and as mammillary aggregates as well. Single crystals and clusters of distinguishable crystals are uncommon, but when found they are typically acicular to prismatic. It is also frequently found as a pseudomorph after Azurite crystals, which are generally more tabular in shape.
The Cu analogue of chukanovite. Structurally related to the Rosasite Group.
Visit gemdat.org for gemological information about Malachite.
The Cu analogue of chukanovite. Structurally related to the Rosasite Group.
Visit gemdat.org for gemological information about Malachite.Unique Identifiers
Mindat ID:
2550
Long-form identifier:
mindat:1:1:2550:4
GUID
(UUID V4):
(UUID V4):
18524637-6bf6-4633-a2e3-6f4928b0251d
IMA Classification of Malachite
Approved, 'Grandfathered' (first described prior to 1959)
Classification of Malachite
5.BA.10
5 : CARBONATES (NITRATES)
B : Carbonates with additional anions, without H2O
A : With Cu, Co, Ni, Zn, Mg, Mn
5 : CARBONATES (NITRATES)
B : Carbonates with additional anions, without H2O
A : With Cu, Co, Ni, Zn, Mg, Mn
Dana 7th ed.:
16.3.2.1
16a.3.1.1
16a : ANHYDROUS CARBONATES CONTAINING HYDROXYL OR HALOGEN
3 : (AB)2(XO3)Zq
16a : ANHYDROUS CARBONATES CONTAINING HYDROXYL OR HALOGEN
3 : (AB)2(XO3)Zq
11.2.1
11 : Carbonates
2 : Carbonates of Cu
11 : Carbonates
2 : Carbonates of Cu
Mineral Symbols
As of 2021 there are now IMA–CNMNC approved mineral symbols (abbreviations) for each mineral species, useful for tables and diagrams.
Please only use the official IMA–CNMNC symbol. Older variants are listed for historical use only.
Please only use the official IMA–CNMNC symbol. Older variants are listed for historical use only.
| Symbol | Source | Reference |
|---|---|---|
| Mlc | IMA–CNMNC | Warr, L.N. (2021). IMA–CNMNC approved mineral symbols. Mineralogical Magazine, 85(3), 291-320. doi:10.1180/mgm.2021.43 |
| Mlc | Whitney & Evans (2010) | Whitney, D.L. and Evans, B.W. (2010) Abbreviations for names of rock-forming minerals. American Mineralogist, 95, 185–187 doi:10.2138/am.2010.3371 |
| Mal | The Canadian Mineralogist (2019) | The Canadian Mineralogist (2019) The Canadian Mineralogist list of symbols for rock- and ore-forming minerals (December 30, 2019). download |
Physical Properties of Malachite
Silky, Earthy
Transparency:
Opaque
Colour:
Bright green, with crystals deeper shades of green, even very dark to nearly black; green to yellowish green in transmitted light.
Streak:
Light green
Hardness:
3½ - 4 on Mohs scale
Hardness Data:
Measured
Tenacity:
Brittle
Cleavage:
Perfect
Perfect on {201}, fair on {010}.
Perfect on {201}, fair on {010}.
Fracture:
Splintery
Density:
3.6 - 4.05 g/cm3 (Measured) 4 g/cm3 (Calculated)
Optical Data of Malachite
Type:
Biaxial (-)
RI values:
nα = 1.655 nβ = 1.875 nγ = 1.909
2V:
Measured: 43° , Calculated: 38°
Max Birefringence:
δ = 0.254
Image shows birefringence interference colour range (at 30µm thickness)
and does not take into account mineral colouration.
and does not take into account mineral colouration.
Surface Relief:
Very High
Dispersion:
relatively weak
Optical Extinction:
Y = b; X ∧ c = 23.5°.
Pleochroism:
Visible
Comments:
X = nearly colorless; Y = yellowish green; Z = deep green.
Chemistry of Malachite
Mindat Formula:
Cu2(CO3)(OH)2
Elements listed:
Common Impurities:
Zn,Co,Ni
Crystallography of Malachite
Crystal System:
Monoclinic
Class (H-M):
2/m - Prismatic
Space Group:
P21/b
Setting:
P21/a
Cell Parameters:
a = 9.502 Å, b = 11.974 Å, c = 3.240 Å
β = 98.75°
β = 98.75°
Ratio:
a:b:c = 0.794 : 1 : 0.271
Unit Cell V:
364.35 ų (Calculated from Unit Cell)
Z:
4
Morphology:
Crystals uncommon, usually short or long prismatic or acicular, parallel to [001]; often grouped in rosettes, sprays, or tufts. Botryoidal to mammillary aggregates of radiating fibrous crystals more common. It may also be massive, compact, and stalactitic.
Twinning:
Untwinned crystals are extremely rare. Typically twinned on {100}, sometimes as penetration or polysynthetic twinning with the axis parallel to [201].
Crystallographic forms of Malachite
Crystal Atlas:
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Malachite no.17 - Goldschmidt (1913-1926)
Malachite no.20 - Goldschmidt (1913-1926)
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Data courtesy of the American Mineralogist Crystal Structure Database. Click on an AMCSD ID to view structure
| ID | Species | Reference | Link | Year | Locality | Pressure (GPa) | Temp (K) |
|---|---|---|---|---|---|---|---|
| 0009305 | Malachite | Susse P (1967) Verfeinerung der kristallstruktur des malachits, Cu2(OH)2CO3 Acta Crystallographica 22 146-151 |  | 1967 | 0 | 293 | |
| 0010795 | Malachite | Zigan F, Joswig W, Schuster H U, Mason S A (1977) Verfeinerung der Struktur von Malachit, Cu2(OH)2CO3, durch Neutronenbeugung Zeitschrift fur Kristallographie 145 412-426 | 1977 | 0 | 293 |
CIF Raw Data - click here to close
X-Ray Powder Diffraction
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Radiation - Copper Kα
Data courtesy of RRUFF project at University of Arizona, used with permission.
Powder Diffraction Data:
| d-spacing | Intensity |
|---|---|
| 5.99 Å | (60) |
| 5.06 Å | (80) |
| 3.69 Å | (90) |
| 2.86 Å | (100) |
| 2.82 Å | (40) |
| 2.78 Å | (50) |
| 2.52 Å | (60) |
| 2.46 Å | (40) |
Comments:
Data given are for synthetic material.
Geological Environment
Paragenetic Mode(s):
| Paragenetic Mode | Earliest Age (Ga) |
|---|---|
| Stage 7: Great Oxidation Event | <2.4 |
| 47a : [Near-surface hydration of prior minerals] | |
| 47c : [Carbonates, phosphates, borates, nitrates] | |
| Stage 10a: Neoproterozoic oxygenation/terrestrial biosphere | <0.6 |
| 53 : Other minerals with taphonomic origins | <0.4 |
Geological Setting:
It is the most common secondary mineral found in the oxidized zones of copper deposits.
Synonyms of Malachite
Other Language Names for Malachite
Arabic:الملكيت (ālmalakīt)
Basque:Malakita
Bosnian:Malahit
Breton:Malakit
Catalan:Malaquita
Czech:Malachit
Dutch:Malachiet
Esperanto:Malakito
Estonian:Malahhiit
Finnish:Malakiitti
Galician:Malaquita
German:Malachit
Grünkupfer
Malakhit
Molochit
Berggrün (in part)
Grünkupfer
Malakhit
Molochit
Berggrün (in part)
Hebrew:מלכיט
Hindi:ताप्रांगीयिज
Hungarian:Malachit
Japanese:孔雀石
Korean:공작석
Latin:Malachites
Ærugo nativa
Viride montanum (in part)
Ærugo nativa
Viride montanum (in part)
Lithuanian:Malachitas
Polish:Malachit
Portuguese:Malaquite
Romanian:Malachit
Russian:Малахит
Simplified Chinese:孔雀石
Slovak:Malachit
Slovenian:Malahit
Swedish:Malakit
Bärggrönt
Koppargrön
Bärggrönt
Koppargrön
Thai:มาลาไคต์
Traditional Chinese:孔雀石
Turkish:Malahit
Ukrainian:Малахіт
Vietnamese:Malachit
Varieties of Malachite
| Atlaserz | The German name for a fibrous variety of malachite. |
| Lime-Malachite | Probably an impure malachite |
| Mysorin | An impure Malachite. |
| Zinc-bearing Malachite | A Zn-bearing variety of malachite with Cu:Zn greater than 4:1. Can be distinguished from the visually similar rosasite by X-ray diffraction. |
Relationship of Malachite to other Species
Member of:
Other Members of this group:
| Chukanovite | Fe2+2(CO3)(OH)2 | Mon. 2/m : P21/b |
| Glaukosphaerite | (Cu,Ni)2(CO3)(OH)2 | Mon. 2/m : P21/b |
| Mcguinnessite | (Mg,Cu)2(CO3)(OH)2 | Mon. 2/m |
| Nullaginite | Ni2(CO3)(OH)2 | Mon. 2/m : P21/b |
| Parádsasvárite | Zn2(CO3)(OH)2 | Mon. 2/m : P21/b |
| Perchiazziite | Co2(CO3)(OH)2 | Mon. 2/m : P21/b |
| Pokrovskite | Mg2(CO3)(OH)2 | Mon. 2/m : P21/b |
| Rosasite | (Cu,Zn)2(CO3)(OH)2 | Mon. 2/m : P21/b |
| Zincrosasite | (Zn,Cu)2(CO3)(OH)2 | Mon. |
Common Associates
Associated Minerals Based on Photo Data:
| 8,315 photos of Malachite associated with Azurite | Cu3(CO3)2(OH)2 |
| 2,293 photos of Malachite associated with Quartz | SiO2 |
| 1,820 photos of Malachite associated with Chrysocolla | Cu2-xAlx(H2-xSi2O5)(OH)4 · nH2O, x < 1 |
| 1,648 photos of Malachite associated with Calcite | CaCO3 |
| 1,582 photos of Malachite associated with Cuprite | Cu2O |
| 1,281 photos of Malachite associated with Cerussite | PbCO3 |
| 932 photos of Malachite associated with Copper | Cu |
| 643 photos of Malachite associated with Baryte | BaSO4 |
| 536 photos of Malachite associated with Chalcopyrite | CuFeS2 |
| 529 photos of Malachite associated with Goethite | α-Fe3+O(OH) |
Related Minerals - Strunz-mindat Grouping
| 5.BA.05 | Azurite | Cu3(CO3)2(OH)2 |
| 5.BA.10 | Georgeite | [Cu(OH)2-x(H2O)x][CO3]x/2 |
| 5.BA.10 | Glaukosphaerite | (Cu,Ni)2(CO3)(OH)2 |
| 5.BA.10 | Kolwezite | CuCo(CO3)(OH)2 |
| 5.BA.10 | Mcguinnessite | (Mg,Cu)2(CO3)(OH)2 |
| 5.BA.10 | Nullaginite | Ni2(CO3)(OH)2 |
| 5.BA.10 | Pokrovskite | Mg2(CO3)(OH)2 |
| 5.BA.10 | Rosasite | (Cu,Zn)2(CO3)(OH)2 |
| 5.BA.10 | Zincrosasite | (Zn,Cu)2(CO3)(OH)2 |
| 5.BA.10 | Chukanovite | Fe2+2(CO3)(OH)2 |
| 5.BA.10 | Parádsasvárite | Zn2(CO3)(OH)2 |
| 5.BA.10 | Perchiazziite | Co2(CO3)(OH)2 |
| 5.BA.15 | Aurichalcite | (Zn,Cu)5(CO3)2(OH)6 |
| 5.BA.15 | Hydrozincite | Zn5(CO3)2(OH)6 |
| 5.BA.20 | Holdawayite | Mn6(CO3)2(OH)7(Cl,OH) |
| 5.BA.25 | Defernite | Ca6(CO3)1.58(Si2O7)0.21(OH)7[Cl0.50(OH)0.08(H2O)0.42] |
| 5.BA.25 | UM1977-03-COSiO:CaClH | Ca10-11(CO3)7(SiO4)Cl1-2(OH)1-2 |
| 5.BA.30 | Loseyite | (Mn2+,Zn,Mg)4Zn3(CO3)2(OH)10 |
| 5.BA.30 | Sclarite | Zn7(CO3)2(OH)10 |
Other Information
Thermal Behaviour:
Loses water at about 315°, leaving tenorite.
Notes:
Readily soluble in dilute acids. Very slightly soluble in water containing CO2.
Frequently found as pseudomorphs after azurite, or as alteration pseudomorphs after cuprite. Less frequently occurs as pseudomorphs after atacamite, brochantite, chalcopyrite, tetrahedrite, chalcophyllite, gypsum, libethenite, calcite, sphalerite, cerussite, and pyrite.
Rarely found altered to azurite or cuprite.
Frequently found as pseudomorphs after azurite, or as alteration pseudomorphs after cuprite. Less frequently occurs as pseudomorphs after atacamite, brochantite, chalcopyrite, tetrahedrite, chalcophyllite, gypsum, libethenite, calcite, sphalerite, cerussite, and pyrite.
Rarely found altered to azurite or cuprite.
Health Risks:
No information on health risks for this material has been entered into the database. You should always treat mineral specimens with care.
Industrial Uses:
A minor ore of copper when abundant enough in a copper deposit.
Malachite in petrology
An essential component of rock names highlighted in red, an accessory component in rock names highlighted in green.
Internet Links for Malachite
mindat.org URL:
https://www.mindat.org/min-2550.html
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References for Malachite
Reference List:
Maskelyne, N. S., von Lang, Viktor (1863) LX. Mineralogical notes. The London, Edinburgh, And Dublin Philosophical Magazine And Journal Of Science, S. 4 Vol. 25 (170) 432-453 doi:10.1080/14786446308643489pp.432-435 - "On the crystalline form and the optical properties of malachite"
Maskelyne, N. S., von Lang, Viktor (1864) LXII. Mineralogical notes. The London, Edinburgh, And Dublin Philosophical Magazine And Journal Of Science, S. 4 Vol. 28 (192) 502-508 doi:10.1080/14786446408643807pp.502-505 - "On the crystalline form of malachite"
(1917) Useful minerals of the United States. Bulletin Vol. 624. US Geological Survey doi:10.3133/b624
Ramsdell, Lewis S., Wolfe, C. Wroe (1950) The unit cell of malachite. American Mineralogist, 35 (1-2) 119-120
Wells, A. F. (1951) Malachite: re-examination of crystal structure. Acta Crystallographica, 4 (3) 200-204 doi:10.1107/s0365110x51000714
Simpson, Dale R., Fisher, Richard, Libsch, Karl (1964) Mineralogical Notes: Thermal stability of azurite and malachite. American Mineralogist, 49 (7-8) 1111-1113
Süsse, P. (1967) Verfeinerung der Kristallstruktur des Malachits, Cu2(OH)2CO3. Acta Crystallographica, 22 (1) 146-151 doi:10.1107/s0365110x67000222
Goldsmith, J.A., Ross, S.D. (1968) The infra-red spectra of azurite and malachite. Spectrochimica Acta Part A: Molecular Spectroscopy, 24 (12). 2131-2137 doi:10.1016/0584-8539(68)80273-9
Zigan, F., Joswig, W., Schuster, H. D., Mason, S. A. (1977) Verfeinerung der Struktur von Malachit, Cu2(OH)2CO3, durch Neutronenbeugung. Zeitschrift für Kristallographie - Crystalline Materials, 145 (5-6) 412 doi:10.1524/zkri.1977.145.5-6.412
Symes, James L, Kester, Dana R (1984) Thermodynamic stability studies of the basic copper carbonate mineral, malachite. Geochimica et Cosmochimica Acta, 48 (11) 2219-2229 doi:10.1016/0016-7037(84)90218-7
Frost, R. L., Martens, W. N., Rintoul, L., Mahmutagic, E., Kloprogge, J. T. (2002) Raman spectroscopic study of azurite and malachite at 298 and 77 K. Journal of Raman Spectroscopy, 33 (4). 252-259 doi:10.1002/jrs.848
Girgsdies, Frank, Behrens, Malte (2012) On the structural relations of malachite. II. The brochantite MDO polytypes. Acta Crystallographica Section B Structural Science, 68 (6) 571-577 doi:10.1107/s0108768112039274
Anthony, John W., Bideaux, Richard A., Bladh, Kenneth W., Nichols, Monte C. - Eds. (2016) Handbook of Mineralogy. https://www.handbookofmineralogy.org/
Makovicky, Emil, Merlino, Stefano (2019) Order-disorder Twinning of Malachite. The Canadian Mineralogist, 57 (4) 475-488 doi:10.3749/canmin.1900007
Popov, V.A., Tsyganko, M.V. (2023) Benard cells – a possible mechanism of the formation of subaquatic and subfluidic stalactites. МИНЕРАЛОГИЯ (MINERALOGY) [Mineralogy], 9 (3) 70-75 doi:10.35597/2313-545x-2023-9-3-5
Significant localities for Malachite
Showing 23 significant localities out of 14,650 recorded on mindat.org.
symbol to view information about a locality.
The Locality List
- This locality has map coordinates listed.
- This locality has estimated coordinates.
ⓘ - Click for references and further information on this occurrence.
? - Indicates mineral may be doubtful at this locality.
- Good crystals or important locality for species.
- World class for species or very significant.
(TL) - Type Locality for a valid mineral species.
(FRL) - First Recorded Locality for everything else (eg varieties).
All localities listed without proper references should be considered as questionable.
Australia | |
| Noble et al. (1983) +1 other reference |
Austria | |
| Meixner et al. (1975) +1 other reference |
| Lapis 19 (7/8) |
Bolivia | |
| Petrov (n.d.) |
Canada | |
| |
DR Congo | |
| Lapis (1992) +1 other reference |
| |
| King et al. (1991) +1 other reference |
France | |
| Favreau G. et al. (1996) |
Germany | |
| www.alterbergbau.de |
| Markus Gerstmann - Collection +1 other reference |
| Markus Gerstmann - Collection | |
Ireland | |
| Morrissey (1970) +2 other references |
Mexico | |
| Valencia et al. (2006) +2 other references |
Namibia | |
| Graham et al. (2007) +1 other reference |
| Mineralogical Record (3) +1 other reference |
Russia | |
| Kievlenko E.V. (1983) |
USA | |
| Galbraith et al. (1959) |
| Dana 6:1093 +9 other references |
| Rocks & Minerals 84:298-323 +1 other reference |
| A. Plante collection +3 other references |
| Walstrom (n.d.) +1 other reference |
| - (2005) |
Quick NavTopAbout MalachiteUnique IdentifiersIMA Classification Classification Mineral SymbolsPhysical Properties Optical Data Chemistry Crystallography Crystallographic forms Crystal StructureX-Ray Powder DiffractionGeological EnvironmentSynonymsOther LanguagesVarietiesRelationshipsCommon AssociatesStrunz-MindatOther InformationMalachite in petrologyInternet Links References Significant localities Locality List
Mashamba West Mine, Sicomines copper-cobalt project, Mutshatsha, Lualaba, DR Congo