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Sopcheite

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About SopcheiteHide

Formula:
Ag4Pd3Te4
Colour:
Gray
Lustre:
Metallic
Hardness:
Crystal System:
Orthorhombic
Name:
Named after its discovery locality.
This page provides mineralogical data about Sopcheite.


Classification of SopcheiteHide

Approved
Approval Year:
1980
2.BC.55

2 : SULFIDES and SULFOSALTS (sulfides, selenides, tellurides; arsenides, antimonides, bismuthides; sulfarsenites, sulfantimonites, sulfbismuthites, etc.)
B : Metal Sulfides, M: S > 1: 1 (mainly 2: 1)
C : With Rh, Pd, Pt, etc.
2.16.10.1

2 : SULFIDES
16 : Miscellaneous
3.12.19

3 : Sulphides, Selenides, Tellurides, Arsenides and Bismuthides (except the arsenides, antimonides and bismuthides of Cu, Ag and Au, which are included in Section 1)
12 : Sulphides etc. of the platinum metals

Physical Properties of SopcheiteHide

Metallic
Transparency:
Opaque
Colour:
Gray
Hardness:
3½ on Mohs scale

Chemical Properties of SopcheiteHide

Formula:
Ag4Pd3Te4
Common Impurities:
Fe,Cu,Ni,Bi

Crystallography of SopcheiteHide

Crystal System:
Orthorhombic
Cell Parameters:
a = 9.64 Å, b = 7.9 Å, c = 11.04 Å
Ratio:
a:b:c = 1.22 : 1 : 1.397
Unit Cell V:
840.76 ų (Calculated from Unit Cell)

Type Occurrence of SopcheiteHide

Synonyms of SopcheiteHide

Other Language Names for SopcheiteHide

German:Sopcheit
Spanish:Sopcheita

Relationship of Sopcheite to other SpeciesHide

Other Members of this group:
Telargpalite(Pd,Ag)3(Te,Bi)Iso.
TemagamitePd3HgTe3Trig. 3m : P3m1

Common AssociatesHide

Associated Minerals Based on Photo Data:
1 photo of Sopcheite associated with ChalcopyriteCuFeS2

Related Minerals - Nickel-Strunz GroupingHide

2.BC.UM2004-45-Se:AgHgPd(Ag,Cu)6Hg2Pd2Se3
2.BC.ColdwellitePd3Ag2SIso. 4 3 2 : P43 3 2
2.BC.05PalladseitePd17Se15Iso. m3m (4/m 3 2/m)
2.BC.05MiassiteRh17S15Iso.
2.BC.05UM2000-47-S:CuFePdPtPtPd(Fe,Cu)S
2.BC.10Oosterboschite(Pd,Cu)7Se5Orth.
2.BC.15ChrisstanleyiteAg2Pd3Se4Mon.
2.BC.15JagüéiteCu2Pd3Se4Mon. 2/m : P21/b
2.BC.20KeithconnitePd20Te7Trig.
2.BC.25Vasilite(Pd,Cu)16(S,Te)7Iso.
2.BC.30TelluropalladinitePd9Te4Mon.
2.BC.35LuberoitePt5Se4Mon. 2/m : P21/b
2.BC.40Oulankaite(Pd,Pt)5(Cu,Fe)4SnTe2S2Tet.
2.BC.45Telargpalite(Pd,Ag)3(Te,Bi)Iso.
2.BC.50TemagamitePd3HgTe3Trig. 3m : P3m1
2.BC.60LaflammeitePd3Pb2S2Mon.
2.BC.65TischendorfitePd8Hg3Se9Orth.

Related Minerals - Hey's Chemical Index of Minerals GroupingHide

3.12.1Seinäjokite(Fe,Ni)(Sb,As)2Orth.
3.12.2LauriteRuS2Iso. m3 (2/m 3) : Pa3
3.12.3Ruthenarsenite(Ru,Ni)AsOrth.
3.12.4Anduoite(Ru,Os)As2Orth.
3.12.5Ruarsite(Ru,Os)AsSMon.
3.12.6XingzhongitePb2+Ir3+2S4Iso.
3.12.7RhodplumsiteRh3Pb2S2Trig.
3.12.8Cuprorhodsite(Cu1+0.5Fe3+0.5)Rh3+2S4Iso. m3m (4/m 3 2/m) : Fd3m
3.12.9KonderiteCu3Pb(Rh,Pt,Ir)8S16Hex. 6/m : P6/m
3.12.10Bowieite(Rh,Ir,Pt)2S3Orth. mmm (2/m 2/m 2/m)
3.12.11CherepanoviteRhAsOrth. mmm (2/m 2/m 2/m) : Pnma
3.12.12Hollingworthite(Rh,Pt,Pd)AsSIso. m3 (2/m 3)
3.12.13Vysotskite(Pd,Ni)STet.
3.12.14Vasilite(Pd,Cu)16(S,Te)7Iso.
3.12.15PalladseitePd17Se15Iso. m3m (4/m 3 2/m)
3.12.16Oosterboschite(Pd,Cu)7Se5Orth.
3.12.17TelluropalladinitePd9Te4Mon.
3.12.18TemagamitePd3HgTe3Trig. 3m : P3m1
3.12.20MicheneritePdBiTeIso. 2 3 : P21 3
3.12.21KotulskitePd(Te,Bi)Hex.
3.12.22Telargpalite(Pd,Ag)3(Te,Bi)Iso.
3.12.23Merenskyite(Pd,Pt)(Te,Bi)2Trig. 3m : P3m1
3.12.24PalladoarsenidePd2AsMon. 2/m : P2/m
3.12.25StillwateritePd8As3Trig.
3.12.26AtheneitePd2As0.75Hg0.25Hex. 6 m2 : P62m
3.12.27MajakitePdNiAsHex.
3.12.28PalarstanidePd5(Sn,As)2Hex.
3.12.29ArsenopalladinitePd8(As,Sb)3Tric. 1 : P1
3.12.30VincentitePd3AsTet.
3.12.31PalladobismutharsenidePd2(As,Bi)Orth.
3.12.32StibiopalladinitePd5Sb2Hex.
3.12.33Hexatestibiopanickelite(Pd,Ni)(Sb,Te)Hex.
3.12.34Sudburyite(Pd,Ni)SbHex.
3.12.35TestibiopalladitePdTe(Sb,Te)Iso.
3.12.36BorovskitePd3SbTe4Iso.
3.12.37IsomertieitePd11Sb2As2Iso. m3m (4/m 3 2/m) : Fd3m
3.12.38Mertieite-IPd11(Sb,As)4Hex.
3.12.39Mertieite-IIPd8Sb2.5As0.5Trig. 3m (3 2/m) : R3c
3.12.40SobolevskitePd(Bi,Te)Hex.
3.12.41Frooditeα-PdBi2Mon. 2/m : B2/m
3.12.42PolaritePd(Bi,Pb)Orth. mm2 : Cmc21
3.12.43UrvantsevitePd(Bi,Pb)2Tet.
3.12.44CooperitePtSTet. 4/mmm (4/m 2/m 2/m) : P42/mmc
3.12.45Braggite(Pt,Pd,Ni)STet.
3.12.46Kharaelakhite(Cu,Pt,Pb,Fe,Ni)9S8Orth. mmm (2/m 2/m 2/m) : Pmmm
3.12.47MalaniteCu1+(Ir3+Pt4+)S4Iso.
3.12.48Moncheite(Pt,Pd)(Te,Bi)2Trig.
3.12.49MaslovitePtBiTeIso. 2 3 : P21 3
3.12.50SperrylitePtAs2Iso. m3 (2/m 3) : Pa3
3.12.51PlatarsitePtAsSIso.
3.12.52GeversitePtSb2Iso. m3 (2/m 3) : Pa3
3.12.53DaomaniteCuPtAsS2Orth.
3.12.54Genkinite(Pt,Pd,Rh)4Sb3Tet. 4 2 2
3.12.55StumpflitePt(Sb,Bi)Hex.
3.12.56InsizwaitePt(Bi,Sb)2
3.12.57ErlichmaniteOsS2Iso. m3 (2/m 3) : Pa3
3.12.58Omeiite(Os,Ru)As2Orth.
3.12.59Osarsite(Os,Ru)AsSMon.
3.12.60Kashinite(Ir,Rh)2S3Orth.
3.12.61InaglyiteCu3Pb(Ir,Pt)8S16Hex.
3.12.62Cuproiridsite(Cu,Fe)Ir2S4Iso. m3m (4/m 3 2/m) : Fd3m
3.12.63Iridarsenite(Ir,Ru)As2Mon.
3.12.64Irarsite(Ir,Ru,Rh,Pt)AsSIso.
3.12.65TolovkiteIrSbSIso.

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 SopcheiteHide

Reference List:
Sort by Year (asc) | by Year (desc) | by Author (A-Z) | by Author (Z-A)
Zapiski Vserossiyskogo Mineralogicheskogo Obshchestva (1982): 111: 114-117.
American Mineralogist (1983): 68: 472.
Canadian Mineralogist (1984): 22: 233-237.

Internet Links for SopcheiteHide

Localities for SopcheiteHide

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.
Canada
 
  • British Columbia
    • Liard Mining Division
Nixon, G. T., & Smyth, W. R. (1998). Ni–Cu sulfide mineralization in the Turnagain Alaskan-type complex: a unique magmatic environment. Geological Survey of British Columbia, Paper, 1.
  • New Brunswick
    • Kings Co.
      • Cardwell Parish
Canadian Mineralogist 45, 775; Grammatikopoulos, T.A., Hiebert, R.S., Barr, S.M. and Valeyev, O., (2006) Cu-Ni-PGM Mineralization In The Mechanic Settlement Pluton, Southern New Brunswick, Canada. in Geological Association of Canada, Program with Abstracts Volume 31
  • Ontario
    • Sudbury District
Canadian Mineralogist 22:233-237
Hoffman, E.L., Naldrett, A.J., Alcock, R.A., and Hancock, R.G.V. (1979) The noble metal content of ore in the Levack West and Little Stobie mines, Ontario. Canadian Mineralogist: 17: 437-452.
      • Wisner Township
Economic Geology 103 (2008) 1005-1028.; Ames, D. E., McClenaghan, M. B., Averill, S., & Milkereit, B. (2007). Footwall-hosted Cu-PGE (Au, Ag), Sudbury Canada: towards a new exploration vector. Exploration 07, Exploration in the New Millennium, 1013-1017.
    • Thunder Bay District
Mulja & Mitchell (1990)
Ames, D.E., Kjarsgaard, I.M., McDonald, A.M. & Good, D.J. (2017) Insights into the extreme PGE enrichment of the W Horizon, Marathon Cu-Pd deposit, Coldwell Alkaline Complex, Canada: Platinum-group mineralogy, compositions and genetic implications. Ore Geology Reviews 90:723-747.
      • Lac des Iles Area
Canadian Mineralogist 22:233-237
      • O'Neill Township
Canadian Mineralogist 30, 121
      • Seeley Lake Area
Mulja, T. & Mitchell, R.H. (1990) Platinum-group minerals and tellurides from the Geordi Lake intrusion, Coldwell complex, Northwestern Ontario. Canadian Mineralogist 28, 489-501.; Geological Association of Canada (2014) Abstracts Fredericton Vol 37
Denmark
 
  • Greenland
    • Sermersooq
      • Skaergaard intrusion
Holwell, D. A., Keays, R. R., McDonald, I., & Williams, M. R. (2015). Extreme enrichment of Se, Te, PGE and Au in Cu sulfide microdroplets: evidence from LA-ICP-MS analysis of sulfides in the Skaergaard Intrusion, east Greenland. Contributions to Mineralogy and Petrology, 170(5-6), 1-26.
Greece
 
  • Central Macedonia
    • Chalkidiki
      • Aristotelis
        • Cassandra Mines
Katie A. McFall, Jonathan Naden, Stephen Roberts, Tim Baker, John Spratt, Iain McDonald (2018): Platinum-group minerals in the Skouries Cu-Au (Pd, Pt, Te) porphyry deposit. Ore Geology Reviews 99, 344-364.; McFall, K., Roberts, S., Teagle, D., Naden, J., Lusty, P., & Boyce, A. (2016). The origin and distribution of critical metals (Pd, Pt, Te and Se) within the Skouries Cu-Au porphyry deposit, Greece. Applied Earth Science, 125(2), 100-101.
Philippines
 
  • Luzon
    • Cordillera Administrative Region
      • Benguet Province
        • Baguio District
Piestrzyński, A., Schmidt, S.Th., Franco, H. (1994): Pd-minerals in the Sto. Tomas II, porphyry copper deposit, Tuba Benguet, Philippines. Mineralogia Polonica: 25(2): 21-31
Poland
 
  • Podlaskie Voivodeship
    • Suwałki Co.
Nejbert K. 2008: Mineralogy of sulphides in mafic rocks of the Suwałki Anorthosite Massif, NE Poland. Mineralogia - Special Papers, vol. 32, p. 116
Russia
 
  • Chelyabinsk Oblast
    • Kartalinsky District
Plotinskaya, O. Y., Azovskova, O. B., Abramov, S. S., Groznova, E. O., Novoselov, K. A., Seltmann, R., & Spratt, J. (2018). Precious metals assemblages at the Mikheevskoe porphyry copper deposit (South Urals, Russia) as proxies of epithermal overprinting. Ore Geology Reviews, 94, 239-260.
  • Khabarovsk Krai
Буханова, Д. С. (2018). ТЕЛЛУРИДЫ В РУДАХ МАЛМЫЖСКОГО ЗОЛОТО-МЕДНОПОРФИРОВОГО МЕСТОРОЖДЕНИЯ, НИЖНЕЕ ПРИАМУРЬЕ. Сопредседатели оргкомитета, 91.
  • Krasnoyarsk Krai
    • Taymyrskiy Autonomous Okrug
      • Taimyr Peninsula
        • Putoran Plateau
(2014) 12th International Platinum Symposium p320
            • Talnakh Cu-Ni Deposit
Vymazalová, A., Laufek, F., Sluzhenikin, S.F., Stanley, C.J., Kozlov, V.V., Chareev, D.A., Lukashova, M.L. (2017): Kravtsovite, PdAg2S, a new mineral from the Noril’sk-Talnakh deposit, Krasnoyarskiy kray, Russia. European Journal of Mineralogy: 29: 597-602.
  • Murmansk Oblast
    • Fedorovo-Pansky massif (Pana layered complex)
Groshev, N.Y.; Rundkvist, T.V.; Karykowski, B.T.; Maier, W.D.; Korchagin, A.U.; Ivanov, A.N.; Junge, M. (2019) Low-Sulfide Platinum–Palladium Deposits of the Paleoproterozoic Fedorova–Pana Layered Complex, Kola Region, Russia. Minerals 9, 764.
Groshev, N.Y.; Rundkvist, T.V.; Karykowski, B.T.; Maier, W.D.; Korchagin, A.U.; Ivanov, A.N.; Junge, M. (2019) Low-Sulfide Platinum–Palladium Deposits of the Paleoproterozoic Fedorova–Pana Layered Complex, Kola Region, Russia. Minerals 9, 764.
Groshev, N.Y.; Rundkvist, T.V.; Karykowski, B.T.; Maier, W.D.; Korchagin, A.U.; Ivanov, A.N.; Junge, M. (2019) Low-Sulfide Platinum–Palladium Deposits of the Paleoproterozoic Fedorova–Pana Layered Complex, Kola Region, Russia. Minerals 9, 764.
Groshev, N.Y.; Rundkvist, T.V.; Karykowski, B.T.; Maier, W.D.; Korchagin, A.U.; Ivanov, A.N.; Junge, M. (2019) Low-Sulfide Platinum–Palladium Deposits of the Paleoproterozoic Fedorova–Pana Layered Complex, Kola Region, Russia. Minerals 9, 764.
Groshev, N.Y.; Rundkvist, T.V.; Karykowski, B.T.; Maier, W.D.; Korchagin, A.U.; Ivanov, A.N.; Junge, M. (2019) Low-Sulfide Platinum–Palladium Deposits of the Paleoproterozoic Fedorova–Pana Layered Complex, Kola Region, Russia. Minerals 9, 764.
    • Monche-Tundra
      • Monche tundra intrusion
Grokhovskaya, T. L., Lapina, M. I., & Mokhov, A. V. (2009). Assemblages and genesis of platinum-group minerals in low-sulfide ores of the Monchetundra deposit, Kola peninsula, Russia. Geology of Ore Deposits, 51(6), 467-485.
Yury L. Voytekhovsky, Yury N. Neradovsky (2008) The Cu-Ni-PGE and Cr deposits of the Monchegorsk area, the Kola Peninsula, Russia. 33 IGC excursion No 48, August 15 – 21, 2008
        • Monchegorsk Cu-Ni Deposit
Anthony, Bideaux, Bladh, Nichols: "Handbook of Mineralogy", Vol. 1, 1990; Pekov, I. (1998) Minerals First discovered on the territory of the former Soviet Union 369p. Ocean Pictures, Moscow; (2014) 12th International Platinum Symposium p88
Chashchin, V. V., & Petrov, S. V. (2013). Low-sulfide PGE ore in the Volchetundra gabbro-anorthosite pluton, Kola Peninsula, Russia. Geology of Ore Deposits, 55(5), 357-382.
Chashchin, V. V., & Petrov, S. V. (2013). Low-sulfide PGE ore in the Volchetundra gabbro-anorthosite pluton, Kola Peninsula, Russia. Geology of Ore Deposits, 55(5), 357-382.
  • Republic of Karelia
    • Lake Onega
Grokhovskaya, T. L., Lapina, M. I., Ganin, V. A., & Grinevich, N. G. (2005). PGE mineralization in the Burakovsk Layered Complex, Southern Karelia, Russia. Geology of Ore Deposits C/C of Geologiia Rudnykh Mestorozhdenii, 47(4), 283.
Grishaenko, M. V. P., & Federation, R. (2007). Independent Report on the Shalozerskoe (Burakovsky), Lukkulaisvaara and Tsipringa Platinum, Palladium, Copper, Nickel Deposits in the Autonomous Republic of Karelia Russian Federation
    • Louhi District
      • Oulanka plutonic complex
        • Olanga River (Oulanka River)
Grishaenko, M. V. P., & Federation, R. (2007). Independent Report on the Shalozerskoe (Burakovsky), Lukkulaisvaara and Tsipringa Platinum, Palladium, Copper, Nickel Deposits in the Autonomous Republic of Karelia Russian Federation
Mineralogical Magazine 1996 60 : 973-978.
  • Tuva
(2014) 12th International Platinum Symposium p92
(2014) 12th International Platinum Symposium p92
USA
 
  • Alaska
    • Prince of Wales-Hyder Census Area
      • Ketchikan Mining District
        • Prince of Wales Island
          • Kasaan Peninsula
Econ Geol(1992) 87:185-184; US Geological Survey, 2005, Alaska Resource Data File (ARDF); Goodall, G. N. (2001). PROJECT REPORT on the SALT CHUCK COPPER-PALLADIUM PROSPECT PRINCE OF WALES ISLAND, ALASKA.
  • Colorado
    • La Plata Co.
      • La Plata Mining District (California Mining District)
        • La Plata
Summerlin, E. (2014). PGE mineralization at the Allard stock: Implications for the porphyry to epithermal transition, La Plata Mountains, Colorado (Auburn University MS thesis).
 
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