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Bindi, L., Nestola, F., Kolitsch, U., Guastoni, A., Zorzi, F. (2011) Fassinaite, Pb22+(S2O3)(CO3), the first mineral with coexisting thiosulphate and carbonate groups: description and crystal structure. Mineralogical Magazine, 75 (6) 2721-2732 doi:10.1180/minmag.2011.075.6.2721

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Reference TypeJournal (article/letter/editorial)
TitleFassinaite, Pb22+(S2O3)(CO3), the first mineral with coexisting thiosulphate and carbonate groups: description and crystal structure
JournalMineralogical Magazine
AuthorsBindi, L.Author
Nestola, F.Author
Kolitsch, U.Author
Guastoni, A.Author
Zorzi, F.Author
Year2011 (December)Volume75
Issue6
PublisherMineralogical Society
DOIdoi:10.1180/minmag.2011.075.6.2721Search in ResearchGate
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Mindat Ref. ID244185Long-form Identifiermindat:1:5:244185:0
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Full ReferenceBindi, L., Nestola, F., Kolitsch, U., Guastoni, A., Zorzi, F. (2011) Fassinaite, Pb22+(S2O3)(CO3), the first mineral with coexisting thiosulphate and carbonate groups: description and crystal structure. Mineralogical Magazine, 75 (6) 2721-2732 doi:10.1180/minmag.2011.075.6.2721
Plain TextBindi, L., Nestola, F., Kolitsch, U., Guastoni, A., Zorzi, F. (2011) Fassinaite, Pb22+(S2O3)(CO3), the first mineral with coexisting thiosulphate and carbonate groups: description and crystal structure. Mineralogical Magazine, 75 (6) 2721-2732 doi:10.1180/minmag.2011.075.6.2721
In(2011, December) Mineralogical Magazine Vol. 75 (6) Mineralogical Society
Abstract/NotesFassinaite, ideally Pb22+(S2O3)(CO3), is a new mineral from the Trentini mine, Mount Naro, Vicenza Province, Veneto, Italy (holotype locality). It is also reported from the Erasmus adit, Schwarzleo District, Leogang, Salzburg, Austria and the Friedrich-Christian mine, Schapbach, Black Forest, Baden-Wurttemberg, Germany (cotype localities). At the Italian type locality it occurs as acicular [010]. colourless crystals up to 200 μn long, closely associated with galena, quartz and anglesite. At the Austrian cotype locality it is associated with cerussite, rare sulphur and very rare phosgenite. At the German cotype locality anglesite is the only associated phase. Fassinaite crystals commonly have flat chisel-shaped terminations. They are transparent with vitreous to adamantine lustre and a white streak. Fassinaite is brittle with an irregular fracture and no discernible cleavage; the estimated Mohs hardness is 11/2—2. The calculated density for the type material is 6.084 g cm–3 (on the basis of the empirical formula), whereas the X-ray density is 5.947 g cm–3. In common with other natural lead thiosulphates (i.e. sidpietersite and steverustite) fassinaite has intense internal reflections, which do not allow satisfactory optical data to be collected; the crystals are length-slow and have very high birefringence. The mineral is not fluorescent.Fassinaite is orthorhombic, space group Pnma, with unit-cell parameters (for the holotype material) a = 16.320(2), b = 8.7616(6), c = 4.5809(7) Å, V = 655.0(1) Å3, a:b:c = 1.863:1:0.523, Z = 4. Single-crystal structural studies were carried out on crystals from all three localities: R1(F) values range between 0.0353 and 0.0596. The structure consists of rod-like arrangements of Pb-centred polyhedra that extend along the [010] direction. These ‘rods’ are linked, alternately, by (CO3)2– and (S2O3)2– groups. The (S2O3)2– groups point alternately left and right (in a projection on [001] with [010] set vertical) if the apex occupied by the S2– in the thiosulphate group is defined to be the atom giving the direction. The lead atoms are nine-coordinated by seven oxygen atoms and two sulphur (S2–) atoms. The eight strongest X-ray powder-diffraction lines [d in Å (I/I0) (hkl)] are: 4.410 (39) (101), 4.381 (59) (020), 4.080 (62) (400), 3.504 (75) (301), 3.108 (100) (121), 2.986 (82) (420), 2.952 (49) (221) and 2.736 (60) (321). Electron-microprobe analyses produce an empirical formula Pb2.01(1)(S1.82(2)O3)CO3 (on the basis of six oxygen atoms). The presence of both carbonate and thiosulphate groups was corroborated by Raman spectra, which are discussed in detail. Fassinaite is named after Bruno Fassina (b. 1943), an Italian mineral collector who discovered the mineral in 2009.

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LocalityCitation Details
Trentini Mine, Contrada Trentini, Monte Naro - Riolo Valley side, Monte Naro, Torrebelvicino, Vicenza Province, Veneto, Italy

Mineral Pages

MineralCitation Details
Fassinaite

Mineral Occurrences

LocalityMineral(s)
Erasmus adit, Schwarzleo mining district, Schwarzleograben, Hütten, Leogang, Zell am See District, Salzburg, Austria Anglesite, Cerussite, Fassinaite, Native Sulphur, Phosgenite
Herren adit, Schwarzleo mining district, Schwarzleograben, Hütten, Leogang, Zell am See District, Salzburg, Austria Anglesite, Cerussite, Fassinaite, Galena
Friedrich-Christian Mine, Wildschapbach valley, Bad Rippoldsau-Schapbach, Freudenstadt, Karlsruhe Region, Baden-Württemberg, Germany Fassinaite

See Also

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

Nestola, F., Bindi, L., Guastoni, A., Zorzi, F., Nasdala, L. (2011) Pb2(CO3)(S2O3), the first mineral with coexisting carbonate and thiosulfate groups from Trentini mine, Vicenza, Italy. Geoitalia 2011,, abstract in Plinius 37. Turin, Italy,. 308pp.
Cámara, F., Nestola, F., Bindi, L., Guastoni, A., Zorzi, F., Peruzzo, L., Pedron, D. (2012) Tazzoliite: a new mineral with a pyrochlore-related structure from the Euganei Hills, Padova, Italy. Mineralogical Magazine, 76 (4) 827-838 doi:10.1180/minmag.2012.076.4.01
Guastoni, A., Bindi, L., Nestola, F. (2012) Debattistiite, Ag9Hg0.5As6S12Te2, a new Te-bearing sulfosalt from Lengenbach quarry, Binn valley, Switzerland: description and crystal structure. Mineralogical Magazine, 76 (3) 743-750 doi:10.1180/minmag.2012.076.3.21
Bindi, L., Nestola, F., De Battisti, L., Guastoni, A. (2013) Dervillite, Ag2AsS2, from Lengenbach quarry, Binn valley, Switzerland: occurrence and crystal structure. Mineralogical Magazine, 77 (8) 3105-3112 doi:10.1180/minmag.2013.077.8.05
Bindi, L., Nestola, F., Guastoni, A., Secco, L. (2010) The crystal structure of dalnegroite, Tl5−xPb2x(As,Sb)21−xS34: a masterpiece of structural complexity. Mineralogical Magazine, 74 (6) 999-1012 doi:10.1180/minmag.2010.074.6.999
Bindi, L., Nestola, F., Guastoni, A., Peruzzo, L., Ecker, M., Carampin, R. (2012) Raberite, Tl5Ag4As6SbS15, a new Tl-bearing sulfosalt from Lengenbach quarry, Binn valley, Switzerland: description and crystal structure. Mineralogical Magazine, 76 (5) 1153-1163 doi:10.1180/minmag.2012.076.5.07
Kolitsch, U., Bindi, L., Nestola, F., Guastoni, A., Zorzi, F., Poeverlein, R. (2012) Fassinait, ein neues Bleimineral aus Italien, Österreich und Deutschland. Lapis, 37 (1) 52-53
Nestola, F., Guastoni, A., Bindi, L., Secco, L. (2009) Dalnegroite, Tl5–xPb2x(As,Sb)2l–xS34, a new thallium sulphosalt from Lengenbach quarry, Binntal, Switzerland. Mineralogical Magazine, 73 (6) 1027-1032 doi:10.1180/minmag.2009.073.6.1027
Bindi, L., Nestola, F., Makovicky, E., Guastoni, A., De Battisti, L. (2014) Tl-bearing sulfosalt from the Lengenbach quarry, Binn Valley, Switzerland: Philrothite, TlAs3S5. Mineralogical Magazine, 78 (1) 1-9 doi:10.1180/minmag.2014.078.1.01
Bindi, L., Nestola, F., Graeser, S., Tropper, P., Raber, T. (2015) Eckerite, Ag2CuAsS3, a new Cu-bearing sulfosalt from Lengenbach quarry, Binn valley, Switzerland: description and crystal structure. Mineralogical Magazine, 79 (3) 687-694 doi:10.1180/minmag.2015.079.3.13
Bindi, L., Nestola, F., Guastoni, A., Zorzi, F., Peruzzo, L., Raber, T. (2012) Te-rich canfieldite, Ag8Sn(S,Te)6, from Lengenbach quarry, Binntal, Canton Valais, Switzerland: occurrence, description and crystal structure. The Canadian Mineralogist, 50 (1) 111-118 doi:10.3749/canmin.50.1.111
 
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