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Rhodostannite

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About RhodostanniteHide

Formula:
Cu1+(Fe2+0.5Sn4+1.5)S4
Colour:
Red-purple, gray
Lustre:
Metallic
Hardness:
4
Specific Gravity:
4.79 (Calculated)
Crystal System:
Tetragonal
Name:
The name reflects its colour (Greek rhodos = red) and its compositional similarity to stannite.
Isostructural with:
This page provides mineralogical data about Rhodostannite.


Classification of RhodostanniteHide

Approved
Notes:
Redefined by the IMA
Approval History:
Redefined by IMA as Cu1+(Fe2+0.5Sn4+1.5)S4 (Bosi et al. 2018)
2/C.06-150
2.DA.10

2 : SULFIDES and SULFOSALTS (sulfides, selenides, tellurides; arsenides, antimonides, bismuthides; sulfarsenites, sulfantimonites, sulfbismuthites, etc.)
D : Metal Sulfides, M: S = 3 :4 and 2:3
A : M:S = 3:4
2.10.3.1

2 : SULFIDES
10 : AmBnXp, with (m+n):p = 3:4
6.1.7

6 : Sulphosalts - Sulphostannates, Sulphogermanates,Sulpharsenates, Sulphantimonates, Sulphovanadates and Sulphohalides
1 : Sulphostannates and other sulfides containing Sn

Physical Properties of RhodostanniteHide

Metallic
Transparency:
Opaque
Colour:
Red-purple, gray
Hardness:
Hardness:
VHN100=243 - 266 kg/mm2 - Vickers
Density:
4.79 g/cm3 (Calculated)

Optical Data of RhodostanniteHide

Type:
Anisotropic
Anisotropism:
Bluish gray to dark brown
Reflectivity:
520nmR=27.8%

Reflectance graph
Graph shows reflectance levels at different wavelengths (in nm). Top of box is 100%. Peak reflectance is 27.8%.

Chemical Properties of RhodostanniteHide

Formula:
Cu1+(Fe2+0.5Sn4+1.5)S4

Crystallography of RhodostanniteHide

Crystal System:
Tetragonal
Class (H-M):
4/m - Dipyramidal
Space Group:
I41/a
Cell Parameters:
a = 7.29 Å, c = 10.31 Å
Ratio:
a:c = 1 : 1.414
Unit Cell V:
547.92 ų (Calculated from Unit Cell)
Z:
2
Morphology:
Fine grained massive, slightly porous.
Comment:
On synthetic material

Type Occurrence of RhodostanniteHide

Synonyms of RhodostanniteHide

Other Language Names for RhodostanniteHide

Simplified Chinese:蔷薇黄锡矿
Spanish:Rodostannita

Relationship of Rhodostannite to other SpeciesHide

Other Members of this group:
CarrolliteCu(Co,Ni)2S4Iso. m3m (4/m 3 2/m) : Fd3m
Cuproiridsite(Cu,Fe)Ir2S4Iso. m3m (4/m 3 2/m) : Fd3m
CuprokalininiteCuCr2S4Iso. m3m (4/m 3 2/m) : Fd3m
FletcheriteCu(Ni,Co)2S4Iso. m3m (4/m 3 2/m) : Fd3m
Florensovite(Cu,Zn)Cr1.5Sb0.5S4
MalaniteCu1+(Ir3+Pt4+)S4Iso.
ToyohaiteAg1+(Fe2+0.5Sn4+1.5)S4Tet.

Common AssociatesHide

Associated Minerals Based on Photo Data:
9 photos of Rhodostannite associated with AndoriteAgPbSb3S6
5 photos of Rhodostannite associated with Andorite IVPb18Ag15Sb47S96
5 photos of Rhodostannite associated with CervantiteSb3+Sb5+O4
1 photo of Rhodostannite associated with WoodhouseiteCaAl3(PO4)(SO4)(OH)6

Related Minerals - Nickel-Strunz GroupingHide

2.DA.05BornhardtiteCo2+Co3+2Se4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05CarrolliteCu(Co,Ni)2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05Cuproiridsite(Cu,Fe)Ir2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05Cuprorhodsite(Cu1+0.5Fe3+0.5)Rh3+2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05DaubréeliteFe2+Cr3+2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05FletcheriteCu(Ni,Co)2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05Florensovite(Cu,Zn)Cr1.5Sb0.5S4
2.DA.05GreigiteFe2+Fe3+2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05InditeFeIn2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05KalininiteZnCr2S4
2.DA.05LinnaeiteCo2+Co3+2S4Iso.
2.DA.05MalaniteCu1+(Ir3+Pt4+)S4Iso.
2.DA.05PolydymiteNi2+Ni3+2S4Iso.
2.DA.05SiegeniteCoNi2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05TrüstedtiteNi3Se4Iso.
2.DA.05TyrrelliteCu(Co3+,Ni3+)2Se4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05ViolariteFe2+Ni3+2S4Iso.
2.DA.05XingzhongitePb2+Ir3+2S4Iso.
2.DA.05Ferrorhodsite(Fe,Cu)(Rh,Ir,Pt)2S4Iso.
2.DA.05CadmoinditeCdIn2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.05CuprokalininiteCuCr2S4Iso. m3m (4/m 3 2/m) : Fd3m
2.DA.10ToyohaiteAg1+(Fe2+0.5Sn4+1.5)S4Tet.
2.DA.15BrezinaiteCr3S4Mon. 2/m
2.DA.15Heideite(Fe,Cr)1.15(Ti,Fe)2S4Mon. 2/m
2.DA.20InaglyiteCu3Pb(Ir,Pt)8S16Hex.
2.DA.20KonderiteCu3Pb(Rh,Pt,Ir)8S16Hex. 6/m : P6/m
2.DA.25Kingstonite(Rh,Ir,Pt)3S4Mon. 2/m : B2/m

Related Minerals - Dana Grouping (8th Ed.)Hide

2.10.3.2ToyohaiteAg1+(Fe2+0.5Sn4+1.5)S4Tet.

Related Minerals - Hey's Chemical Index of Minerals GroupingHide

6.1.1KuramiteCu3SnS4Tet.
6.1.2MohiteCu2SnS3Mon.
6.1.3VelikiteCu2HgSnS4Tet.
6.1.4HemusiteCu6SnMoS8Iso.
6.1.5KiddcreekiteCu6SnWS8Iso. 4 3m : F4 3m
6.1.6StanniteCu2FeSnS4Tet. 4 2m : I4 2m
6.1.8MawsoniteCu6Fe2SnS8Tet. 4 2m : P4m2
6.1.9ChatkaliteCu6FeSn2S8Tet. 4 2m : P4m2
6.1.10FerrokësteriteCu2FeSnS4Tet. 4 : I4
6.1.11Kësterite Cu2ZnSnS4Tet. 4 : I4
6.1.12StannoiditeCu+6Cu2+2(Fe2+,Zn)3Sn2S12Orth.
6.1.13ČernýiteCu2(Cd,Zn,Fe)SnS4Tet. 4 2m : I4 2m
6.1.14VincienniteCu+7Cu2+3Fe2+2Fe3+2Sn(As,Sb)S16Tet.
6.1.15PirquitasiteAg2ZnSnS4Tet. 4 : I4
6.1.16HocartiteAg2(Fe2+,Zn)SnS4Tet. 4 2m : I4 2m
6.1.17TeallitePbSnS2Orth. mmm (2/m 2/m 2/m) : Pnma
6.1.18FranckeiteFe2+(Pb,Sn2+)6Sn4+2Sb2S14Tric. 1 : P1
6.1.19LévyclauditePb8Sn7Cu3(Bi,Sb)3S28
6.1.20CylindritePb3Sn4FeSb2S14Tric. 1 : P1
6.1.21PotosíitePb6Sn3FeSb3S16Tric.
6.1.22Sakuraiite(Cu,Zn,Fe)3(In,Sn)S4Iso.
6.1.23Petrukite(Cu,Fe,Zn,Ag)3(Sn,In)S4Orth.
6.1.24Incaite(Pb,Ag)4Sn4FeSb2S15Mon.

Other InformationHide

Health Risks:
No information on health risks for this material has been entered into the database. You should always treat mineral specimens with care.

References for RhodostanniteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Mineralogical Magazine 1968 36 : 1045-1051.
Acta Crystallographica:: B35: 2195-2197.
American Mineralogist (1969): 54: 1218.
Neues Jahrbuch für Mineralogie, Abhandlungen (1984): 150: 25-64.
Bosi, F., Biagioni, C. & Pasero, M.(2019) Nomenclature and classification of the spinel supergroup. European Journal of Mineralogy. 31:183-192

Internet Links for RhodostanniteHide

Localities for RhodostanniteHide

This map shows a selection of localities that have latitude and longitude coordinates recorded. Click on the symbol to view information about a locality. The symbol next to localities in the list can be used to jump to that position on the map.

Locality ListHide

- This locality has map coordinates listed. - This locality has estimated coordinates. ⓘ - Click for 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). Struck out - Mineral was erroneously reported from this locality. Faded * - Never found at this locality but inferred to have existed at some point in the past (eg from pseudomorphs.)

All localities listed without proper references should be considered as questionable.
Argentina
 
  • Jujuy Province
    • Rinconada Department
DE BRODTKORB, Milka K. Precious metaltellurides and other Te-bearing minerals in different paragenesis of Argentina: A review. Rev. Asoc. Geol. Argent. [online]. 2009, vol.64, n.3, pp. 365-372.
Amer.Min.(2000) 85, 1066-1075
Bolivia
 
  • Oruro
    • Cercado Province
      • Oruro City
Keutsch, F., & Brodtkorb, M. D. (2008). Metalliferous paragenesis of the San José mine, Oruro, Bolivia. Journal of South American Earth Sciences, 25(4), 485-491.
    • Dalence Province
      • Huanuni
Cacho, A.; Melgarejo, J.-C.; Camprubí, A.; Torró, L.; Castillo-Oliver, M.; Torres, B.; Artiaga, D.; Tauler, E.; Martínez, Á.; Campeny, M.; Alfonso, P.; Arce-Burgoa, O.R. (2019) Mineralogy and Distribution of Critical Elements in the Sn–W–Pb–Ag–Zn Huanuni Deposit, Bolivia. Minerals 9, 753
    • Poopó Province
Belén Torres, Joan-Carles Melgarejo, Lisard Torró, Antoni Camprubí, Montgarri Castillo-Oliver, David Artiaga, Marc Campeny, Esperança Tauler, Abigail Jiménez-Franco, Pura Alfonso, Osvaldo R. Arce-Burgoa (2019) The Poopó Polymetallic Epithermal Deposit, Bolivia: Mineralogy, Genetic Constraints, and Distribution of Critical Elements. Minerals, 9(8), 472 – in Special Issue Mineral Deposits of Critical Elements.; Torres, B., Melgarejo, J. C., Torró, L., Camprubí, A., Castillo-Oliver, M., Artiaga, D., ... & Arce-Burgoa, O. R. (2019). The Poopó Polymetallic Epithermal Deposit, Bolivia: Mineralogy, Genetic Constraints, and Distribution of Critical Elements. Minerals, 9(8), 472.
Frank Keutsch analysis, August 2009.
  • Potosí
    • Rafael Bustillo
Mineralogical Magazine 1968 36 : 1045-1051.
China
 
  • Guangxi
    • Hechi
      • Nandan County
        • Dachang Sn-polymetallic ore field
Mineral Deposits 4(1), 74
Japan
 
  • Ehime
    • Niihama City
      • Besshi
Kase (1988) Kouzan Chishitsu, 38, 407-418.
  • Hokkaidō
    • Sapporo
      • Minami-ku
Min. Jour. (Japan): 15:222-232.; Eijun Ohta (1991) Polymetallic Mineralization at the Toyoha Mine, Hokkaido, Japan. Mining Geology 41:279-295
USA
 
  • Arizona
    • Cochise County
[MinRec 24:421]
Anthony, J.W., et al (1995), Mineralogy of Arizona, 3rd.ed.: 354; Graeme, R. (1993), Bisbee revisited, Min.Rec.: 24: 421-436.
  • Nevada
    • Lander Co.
      • Lewis Mining District
Min.Rec.:20(5):390.
NBMG Spec. Pub. 31 Minerals of Nevada
 
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