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McDonald, Andrew M., Cabri, Louis J., Tamura, Nobumichi, Melcher, Frank, Vymazalová, Anna V. (2023) Driekopite, ideally PtBi, a new mineral species from the Driekop platinum pipe, Republic of South Africa. The Canadian Journal of Mineralogy and Petrology, 61 (3) 537-547 doi:10.3749/2300005

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Reference TypeJournal (article/letter/editorial)
TitleDriekopite, ideally PtBi, a new mineral species from the Driekop platinum pipe, Republic of South Africa
JournalThe Canadian Journal of Mineralogy and Petrology
AuthorsMcDonald, Andrew M.Author
Cabri, Louis J.Author
Tamura, NobumichiAuthor
Melcher, FrankAuthor
Vymazalová, Anna V.Author
Year2023Volume61
Page(s)537-547Issue3
PublisherGeoScienceWorld
DOIdoi:https://doi.org/10.3749/2300005Search in ResearchGate
Original EntryMcDonald, A., Cabri, L.J., Tamura, N., Melcher, F., Vymazalová, A. (2023): Driekopite, ideally PtBi, a new mineral species from the Driekop Platinum Pipe, RSA. The Canadian Journal of Mineralogy and Petrology: 61 (in press).
Classification
Not set		LoC
Not set
Mindat Ref. ID16143731Long-form Identifiermindat:1:5:16143731:2
GUIDaf968f6d-8827-42af-ad54-9fb3df49050d
Full ReferenceMcDonald, Andrew M., Cabri, Louis J., Tamura, Nobumichi, Melcher, Frank, Vymazalová, Anna V. (2023) Driekopite, ideally PtBi, a new mineral species from the Driekop platinum pipe, Republic of South Africa. The Canadian Journal of Mineralogy and Petrology, 61 (3) 537-547 doi:10.3749/2300005
Plain TextMcDonald, Andrew M., Cabri, Louis J., Tamura, Nobumichi, Melcher, Frank, Vymazalová, Anna V. (2023) Driekopite, ideally PtBi, a new mineral species from the Driekop platinum pipe, Republic of South Africa. The Canadian Journal of Mineralogy and Petrology, 61 (3) 537-547 doi:10.3749/2300005
In(2023) The Canadian Journal of Mineralogy and Petrology Vol. 61 (3) Mineralogical Association of Canada
Abstract/NotesThe new mineral driekopite, ideally PtBi, was found in a concentrate from the Driekop mine, one of three zoned Pt pipes (mined from 1925 to 1930) that crosscut the layered mafic and ultramafic sequences of the eastern Bushveld Complex, Republic of South Africa. The holotype grain of driekopite (∼ 22 × 13 μm) occurs in a complex, rounded aggregate ∼120 μm in diameter, in association with isoferroplatinum (Pt3Fe), hollingworthite (RhAsS), geversite (PtSb2), insizwaite (PtBi2), andrieslombaardite (RhSbS), stibiopalladinite (Pd5Sb2), sobolevskite (PdBi), possible tatyanaite (Pt9Cu3Sn4), osmium-bearing tulameenite (Pt2FeCu), and Pt-Fe alloy (∼Pt2Fe). Driekopite appears slightly orange under reflected light compared to Pt-Fe alloys. It shows moderate to strong bireflectance, varying from light yellow to brownish yellow, no pleochroism or internal reflections, and moderate to strong anisotropism. The empirical formula, calculated from the average of six wavelength-dispersive spectrometry analyses made on five grains, on the basis of two atoms, is (Pt0.68Pd0.31Fe0.01)Σ1.00(Bi0.53Sb0.43As0.02Sn0.02S0.01)Σ1.01. The mineral is hexagonal, space group P63/mmc (#194) with the refined unit-cell dimensions a = 4.1993(5), c = 5.6194(6) Å, V = 85.82 Å3, Z = 2, and Dcalc = 12.91 g/cm3. Driekopite is isostructural with NiAs, with mixed compositions of Pt and Pd at the 2a site (0.55:0.45, respectively) and Bi and Sb at the 2c site (0.63:0.37, respectively). Its crystal structure was refined to wR = 6.3% using 13 unique Laue reflections obtained using synchrotron radiation. The six strongest lines for the powder X-ray diffraction pattern calculated from the crystal structure refined from synchrotron data is [d in Å (I) (hkl)]: 3.0531 (92) (101), 2.2234 (100) (102), 2.0997 (77) forumla⁠, 1.5266 (28) (202), 1.2347 (24) forumla⁠, 1.1676 (18) forumla⁠. The holotype grain of driekopite is observed to be paragenetically later than isoferroplatinum and hollingworthite and is considered to be synformational with Bi-bearing geversite, insizwaite, andrieslombaardite, and sobolevskite. The entire aggregate containing these platinum-group minerals is overgrown by a rim of tulameenite and Pt-Fe alloy (∼Pt2Fe), indicating they are paragenetically the last minerals to form. Experiments designed to synthesize PtBi over the range of 200 to 500 °C were all successful. Synthetic PtBi melts congruently at 765 °C, suggesting that driekopite likely crystallized at sub-magmatic temperatures.

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Locality Pages

LocalityCitation Details
Driekop mine, Sekhukhuneland, Burgersfort, Fetakgomo Tubatse Local Municipality, Sekhukhune District Municipality, Limpopo, South Africa

Mineral Pages

MineralCitation Details
Driekopite

Mineral Occurrences

LocalityMineral(s)
Driekop mine, Sekhukhuneland, Burgersfort, Fetakgomo Tubatse Local Municipality, Sekhukhune District Municipality, Limpopo, South Africa Driekopite

See Also

These are possibly similar items as determined by title/reference text matching only.

Kutyrev, Anton, McDonald, Andrew M., Tamura, Nobumichi, Cabri, Louis J., Tolstykh, Nadezhda, Pekov, Igor V. (2023) Sidorovite, PtFe3, a new mineral from the Snegovaya River placer, Koryak Highlands, Russia. The Canadian Journal of Mineralogy and Petrology, 61 (5) 1021-1030 doi:10.3749/2200072
Cabri, L.J., McDonald, A.M., Oberthür, T., Tamura, N., Vymazalová, A., Ross, K.C., Melcher, F. (2023) Andrieslombaardite, RhSbS, a new platinum-group mineral from the platiniferous Onverwacht Pipe, Republic of South Africa. South African Journal of Geology, 126 (2) 151-160 doi:10.25131/sajg.126.0011
Cabri, Louis J., Mcdonald, Andrew M., Evstigneeva, Tatiana L. (2023) Discreditation of Borishanskiite as a Mineral Species (= Polarite, PdPb) The Canadian Journal of Mineralogy and Petrology, 2200050 doi:10.3749/2200050
Mcdonald, Andrew M., Cabri, Louis J. (2023) Discreditation of Platarsite: A S-Rich Variety of Sperrylite. The Canadian Journal of Mineralogy and Petrology, 61 (5) 1039-1044 doi:10.3749/2300021
Barkov, Andrei Y., Tolstykh, Nadezhda D., Tamura, Nobumichi, Martin, Robert F., McDonald, Andrew M., Cabri, Louis J. (2021) Ferrotorryweiserite, Rh5Fe10S16, a New Mineral Species from the Sisim Placer Zone, Eastern Sayans, Russia, and the Torryweiserite–Ferrotorryweiserite Series. Minerals, 11 (12) 1420 doi:10.3390/min11121420
McDonald, A. M., Cabri, L. J., Rudashevsky, N. S., Stanley, C. J., Rudashevsky, V. N., Ross, K. C. (2008) Nielsenite, PdCu3, a new platinum-group intermetallic mineral species from the Skaergaard intrusion, Greenland. The Canadian Mineralogist, 46 (3) 709-716 doi:10.3749/canmin.46.3.709
McDonald, Andrew M., Cabri, Louis J., Stanley, Chris J., Good, David J., Redpath, Jason, Lane, Geoff, Spratt, John, Ames, Doreen E. (2015) Coldwellite, Pd3Ag2S, A New Mineral Species From the Marathon Deposit, Coldwell Complex, Ontario, Canada. The Canadian Mineralogist, 53 (5) 845-857 doi:10.3749/canmin.1500020
Oberthür, Thomas, Melcher, Frank, Goldmann, Simon, Fröhlich, Fabian (2021) High grade ores of the Onverwacht platinum pipe, eastern Bushveld, South Africa. The Canadian Mineralogist, 59 (6) 1397-1435 doi:10.3749/canmin.2100031
Tarkian, M. and Stumpfl, E.F. (1975) Platinum mineralogy of the Driekop mine, South Africa. Mineral. Deposita: 10: 71-85.
Cabri, Louis J., Liang, Qing-Lin (2024) Testibiopalladite, PdSbTe: A VALID MINERAL AND Sb-ANALOGUE OF MICHENERITE. The Canadian Journal of Mineralogy and Petrology, 62 (2) 307-316 doi:10.3749/2300049
Lesher, Michael, Cabri, Louis J., McDonald, Andrew (2021) Preface part I: Dedication. The Canadian Mineralogist, 59 (6) 1277-1281 doi:10.3749/canmin.int011
 
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