Hexatestibiopanickelite (original) (raw)

A material that is NOT an approved mineral species

Name:

In allusion to its crystal morphology, being in the HEXAgonal system, and in allusion to its chemical composition, containing TEllurium, antimony (Latin = STIBIum), PAlladium and NICKEL.

Originally described from an undisclosed locality in southwest China (probably the Yangliuping deposit).

Unique IdentifiersHide

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Long-form identifier:

mindat:1:1:1893:3

ec9f88cb-76fa-4327-b8d2-1d087821a76c

Classification of HexatestibiopanickeliteHide

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2.CC.30

2 : SULFIDES and SULFOSALTS (sulfides, selenides, tellurides; arsenides, antimonides, bismuthides; sulfarsenites, sulfantimonites, sulfbismuthites, etc.)
C : Metal Sulfides, M: S = 1: 1 (and similar)
C : With Ni, Fe, Co, PGE, etc.

2.8.11.4

2 : SULFIDES
8 : AmXp, with m:p = 1:1

3.12.33

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

Pronunciation of HexatestibiopanickeliteHide

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Pronunciation:

Play Recorded by Country
Sorry, your browser doesn't support HTML5 audio. Jolyon & Katya Ralph United Kingdom

Physical Properties of HexatestibiopanickeliteHide

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Chemical Properties of HexatestibiopanickeliteHide

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Crystallography of HexatestibiopanickeliteHide

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Cell Parameters:

a = 3.98 Å, c = 5.35 Å

Unit Cell V:

73.39 ų (Calculated from Unit Cell)

Other Language Names for HexatestibiopanickeliteHide

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Related Minerals - Strunz-mindat GroupingHide

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2.CC. Tilkerodeite Pd2HgSe3 Trig. 3_m_ _(_32/m ) : _P_3_m_1
2.CC. UM2007-26-S:CuFeIrNiPtRh (Ir,Cu,Ni,Pt,Rh,Fe)9S11
2.CC. Crowningshieldite (Ni0.9Fe0.10)S Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC. Eliopoulosite V7S8 Trig. 32 : _P_3221
2.CC. Kuvaevite Ir5Ni10S16 Trig. 3_m_ _(_32/m ) : R_3_m
2.CC. Torryweiserite Rh5Ni10S16 Trig. 3_m_ _(_32/m ) : R_3_m
2.CC. Tamuraite Ir5Fe10S16 Trig. 3_m_ _(_32/m ) : R_3_m
2.CC. Ferrotorryweiserite Rh5Fe10S16 Trig. 3_m_ _(_32/m ) : R_3_m
2.CC.05 Achávalite FeSe Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC.05 Breithauptite NiSb Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC.05 Freboldite CoSe Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC.05 Kotulskite Pd(Te,Bi)2-x (x ≈ 0.4) Hex.
2.CC.05 Langisite CoAs Hex. 6 : _P_63
2.CC.05 Nickeline NiAs Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m c m
2.CC.05 Sederholmite beta-NiSe Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC.05 Sobolevskite PdBi Hex.
2.CC.05 Stumpflite PtSb Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC.05 Sudburyite PdSb Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC.05 Jaipurite CoS Hex.
2.CC.05 Zlatogorite NiCuSb2 Trig. 3_m_ _(_32/m ) : P_31_m
2.CC.10 Pyrrhotite Fe1-xS Mon.
2.CC.10 Smythite (Fe,Ni)3+xS4 (x=0-0.3) Trig. 3_m_ _(_32/m ) : R_3_m
2.CC.10 Troilite FeS Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC.15 Cherepanovite RhAs Orth. m m m _(_2/_m_2/_m_2/m ) : P n m a
2.CC.15 Modderite (Co,Fe)As Orth. m m m _(_2/_m_2/_m_2/m )
2.CC.15 Ruthenarsenite (Ru,Ni)As Orth. m m m _(_2/_m_2/_m_2/m ) : P n m a
2.CC.15 Westerveldite (Fe,Ni,Co)As Orth. m m m _(_2/_m_2/_m_2/m )
2.CC.15 Minakawaite RhSb Orth. m m m _(_2/_m_2/_m_2/m ) : P n m a
2.CC.20 Millerite NiS Trig. 3_m_ : R_3_m
2.CC.20 Mäkinenite γ-NiSe Trig. 3_m_
2.CC.20 UM1990-38-S:CuFeIrNiPtRh (Ni,Fe,Rh,Cu,Ir,Pt)S
2.CC.25 Mackinawite FeS Tet. 4/m m m _(_4/_m_2/_m_2/m ) : _P_4/n m m
2.CC.30 Vavřínite Ni2SbTe2 Hex. 6/m m m _(_6/_m_2/_m_2/m ) : _P_63/m m c
2.CC.35a Braggite PdPt3S4 Tet. 4/m : _P_42/m
2.CC.35b Cooperite PtS Tet. 4/m m m _(_4/_m_2/_m_2/m ) : _P_42/m m c
2.CC.35a Vysotskite PdS Tet. 4/m : _P_42/m
2.CC.45 Jacutingaite Pt2HgSe3 Trig. 3_m_ _(_32/m ) : _P_3_m_1
2.CC.50 Imgreite NiTe (?) Hex.

Other InformationHide

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Health Risks:

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

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References for HexatestibiopanickeliteHide

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Reference List:

Localities for HexatestibiopanickeliteHide

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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

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- 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). 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 (e.g. from pseudomorphs).

All localities listed without proper references should be considered as questionable.

Austria
Salzburg Zell am See District Mittersill Haidbachgraben Gaiswand mine S.Schwabl (2016)
Canada
Yukon Whitehorse mining district Kluane District Wellgreen Cu-Ni-PGE deposit 5th International Platinum Symposium Bulletin of The Geological Society of Finland Number 61, Part 1,1989,1-64 Barkov, A.Y., Laflamme, J.H.G., Cabri, L.J., and Martin, R.F. (2002) Platinum-group minerals from the Wellgreen Cu-Ni-PGE deposit, Yukon, Canada. Canadian Mineralogist: 40: 651-669.
China
Sichuan Garzê Autonomous Prefecture (Ganzi Autonomous Prefecture) Danba Co. Yangliuping Cu-Ni-PGE ore field Yangliuping Cu-Ni-PGE deposit American Mineralogist (1979), 64, 464 Xiaoqiang Hu, Yunquan Li, and Dequan Shuai (2001): Journal of Mineralogy and Petrology 21(1), 14-18
Zhengziyanwo ore block XU, J. S., & WANG, K. Y. (2015). Analysis of the Occurrence of Platinum-Palladium and Precipitation Mechanism by SEM and EPMA in the Ni-Cu Sulphide Deposits from Yangliupin, Sichuan Province, China. Rock and Mineral Analysis, 34(2), 161-168.
Yunnan Dali Midu County Jinbaoshan Pt-Pd-Ni-Cu deposit (Jingbaoshan Pt-Pd-Ni-Cu deposit) Min Liu (2002): Multipurpose Utilization of Mineral Resources 10(5), 28-32 Shengwei Wang, Xiaoming Sun, Zhenwen Liao, Bangguo Zhou, Maojin Luo, Yang Guo, Xiaofang Jiang, Huaping Zhu, Dong Ma, and Zhanwu Shen (2012): Mineral Deposits 31(6), 1259-1276