Argentopolybasite, Ag16Sb2S11, a new member of the polybasite group

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Argentopolybasite, Ag16Sb2S11, a new member of the polybasite group. / Števko, Martin; Mikuš, Tomáš; Sejkora, Jiří; Plášil, Jakub; Makovicky, Emil; Vlasáč, Jozef; Kasatkin, Anatoly.

I: Mineralogical Magazine, Bind 83, Nr. 3, 2023, s. 382–395.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Števko, M, Mikuš, T, Sejkora, J, Plášil, J, Makovicky, E, Vlasáč, J & Kasatkin, A 2023, 'Argentopolybasite, Ag16Sb2S11, a new member of the polybasite group', Mineralogical Magazine, bind 83, nr. 3, s. 382–395. https://doi.org/10.1180/mgm.2022.141

APA

Števko, M., Mikuš, T., Sejkora, J., Plášil, J., Makovicky, E., Vlasáč, J., & Kasatkin, A. (2023). Argentopolybasite, Ag16Sb2S11, a new member of the polybasite group. Mineralogical Magazine, 83(3), 382–395. https://doi.org/10.1180/mgm.2022.141

Vancouver

Števko M, Mikuš T, Sejkora J, Plášil J, Makovicky E, Vlasáč J o.a. Argentopolybasite, Ag16Sb2S11, a new member of the polybasite group. Mineralogical Magazine. 2023;83(3):382–395. https://doi.org/10.1180/mgm.2022.141

Author

Števko, Martin ; Mikuš, Tomáš ; Sejkora, Jiří ; Plášil, Jakub ; Makovicky, Emil ; Vlasáč, Jozef ; Kasatkin, Anatoly. / Argentopolybasite, Ag16Sb2S11, a new member of the polybasite group. I: Mineralogical Magazine. 2023 ; Bind 83, Nr. 3. s. 382–395.

Bibtex

@article{31807ae391f04f9ea153d9d6974a34ba,
title = "Argentopolybasite, Ag16Sb2S11, a new member of the polybasite group",
abstract = "The new mineral argentopolybasite, ideally Ag16Sb2S11, was found at the Kremnica Au-Ag epithermal deposit, Ziar nad Hronom Co., Bansk{\'a} Bystrica Region, Slovakia (type locality), Sibenicny vrch near Nov{\'a} Bana, Zarnovica Co., Bansk{\'a} Bystrica Region, Slovakia (cotype locality) and the Arykevaam epithermal Au-Ag deposit, Anadyr' District, Chukotka Autonomous Okrug, Russian Federation (cotype locality). At the Kremnica deposit argentopolybasite was found as discrete, well-developed (pseudo)hexagonal tabular crystals up to 4 mm in size or as complex crystalline aggregates and groups up to 5 mm in size in cavities of quartz. It is associated with pyrargyrite, polybasite, stephanite, miargyrite, rozhdestvenskayaite-(Zn), argentotetrahedrite-(Zn), naumannite, gold and pyrite. Argentopolybasite is dark grey to black, with a black streak and metallic to opaque lustre. The Mohs hardness is about 3. It is brittle without any observable cleavage and with a conchoidal fracture. The calculated density is 6.403 g cm-3. In reflected light, argentopolybasite is grey, without any observable bireflectance and very weak pleochroism. It shows moderate anisotropy in crossed polarisers with weak greenish and green-blue tints. The reflectance values for wavelengths recommended by the Commission on Ore Mineralogy of the IMA are (Rmin/Rmax, %): 30.3/31.0 (470 nm), 28.8/29.3 (546 nm), 28.1/28.6 (589 nm), 27.4/27.8 (650 nm). The empirical formulae (based on 29 apfu) are, Kremnica: (Ag15.94Cu0.18)16.12(Sb1.40As0.61)2.01(S10.60Se0.25Cl0.03)10.88, Nov{\'a} Bana: Ag16.30(Sb1.74As0.22)1.96(S10.69Cl0.04)10.73 and Arykevaam: (Ag15.54Cu0.38)15.92(Sb1.56As0.51)2.07S11.01. The ideal end-member formula for argentopolybasite is Ag16Sb2S11. Argentopolybasite is trigonal, space group P321, a = 15.0646(5) A, c = 12.2552(5) A, V = 2408.61(15) A3 and Z = 2. The seven strongest X-ray powder diffraction lines are [dobs in A, (I), hkl]: 12.169, (40), 001; 3.162, (100), 041; 3.045, (54), 004; 2.881, (45), 042; 2.4256, (28), 421. The crystal structure of argentopolybasite from Kremnica, refined to Robs = 0.0741 for 2804 observed reflections, confirmed that the atomic arrangement is isotypic to that of the other members of the polybasite group and it is isostructural with argentopearceite.",
keywords = "argentopolybasite, crystal structure, epithermal mineralization, Kremnica, new mineral, polybasite group, Slovakia, sulfosalts",
author = "Martin {\v S}tevko and Tom{\'a}{\v s} Miku{\v s} and Ji{\v r}{\'i} Sejkora and Jakub Pl{\'a}{\v s}il and Emil Makovicky and Jozef Vlas{\'a}{\v c} and Anatoly Kasatkin",
note = "Publisher Copyright: {\textcopyright} 2023 Cambridge University Press. All rights reserved.",
year = "2023",
doi = "10.1180/mgm.2022.141",
language = "English",
volume = "83",
pages = "382–395",
journal = "Mineralogical Magazine",
issn = "0026-461X",
publisher = "Mineralogical Society",
number = "3",

}

RIS

TY - JOUR

T1 - Argentopolybasite, Ag16Sb2S11, a new member of the polybasite group

AU - Števko, Martin

AU - Mikuš, Tomáš

AU - Sejkora, Jiří

AU - Plášil, Jakub

AU - Makovicky, Emil

AU - Vlasáč, Jozef

AU - Kasatkin, Anatoly

N1 - Publisher Copyright: © 2023 Cambridge University Press. All rights reserved.

PY - 2023

Y1 - 2023

N2 - The new mineral argentopolybasite, ideally Ag16Sb2S11, was found at the Kremnica Au-Ag epithermal deposit, Ziar nad Hronom Co., Banská Bystrica Region, Slovakia (type locality), Sibenicny vrch near Nová Bana, Zarnovica Co., Banská Bystrica Region, Slovakia (cotype locality) and the Arykevaam epithermal Au-Ag deposit, Anadyr' District, Chukotka Autonomous Okrug, Russian Federation (cotype locality). At the Kremnica deposit argentopolybasite was found as discrete, well-developed (pseudo)hexagonal tabular crystals up to 4 mm in size or as complex crystalline aggregates and groups up to 5 mm in size in cavities of quartz. It is associated with pyrargyrite, polybasite, stephanite, miargyrite, rozhdestvenskayaite-(Zn), argentotetrahedrite-(Zn), naumannite, gold and pyrite. Argentopolybasite is dark grey to black, with a black streak and metallic to opaque lustre. The Mohs hardness is about 3. It is brittle without any observable cleavage and with a conchoidal fracture. The calculated density is 6.403 g cm-3. In reflected light, argentopolybasite is grey, without any observable bireflectance and very weak pleochroism. It shows moderate anisotropy in crossed polarisers with weak greenish and green-blue tints. The reflectance values for wavelengths recommended by the Commission on Ore Mineralogy of the IMA are (Rmin/Rmax, %): 30.3/31.0 (470 nm), 28.8/29.3 (546 nm), 28.1/28.6 (589 nm), 27.4/27.8 (650 nm). The empirical formulae (based on 29 apfu) are, Kremnica: (Ag15.94Cu0.18)16.12(Sb1.40As0.61)2.01(S10.60Se0.25Cl0.03)10.88, Nová Bana: Ag16.30(Sb1.74As0.22)1.96(S10.69Cl0.04)10.73 and Arykevaam: (Ag15.54Cu0.38)15.92(Sb1.56As0.51)2.07S11.01. The ideal end-member formula for argentopolybasite is Ag16Sb2S11. Argentopolybasite is trigonal, space group P321, a = 15.0646(5) A, c = 12.2552(5) A, V = 2408.61(15) A3 and Z = 2. The seven strongest X-ray powder diffraction lines are [dobs in A, (I), hkl]: 12.169, (40), 001; 3.162, (100), 041; 3.045, (54), 004; 2.881, (45), 042; 2.4256, (28), 421. The crystal structure of argentopolybasite from Kremnica, refined to Robs = 0.0741 for 2804 observed reflections, confirmed that the atomic arrangement is isotypic to that of the other members of the polybasite group and it is isostructural with argentopearceite.

AB - The new mineral argentopolybasite, ideally Ag16Sb2S11, was found at the Kremnica Au-Ag epithermal deposit, Ziar nad Hronom Co., Banská Bystrica Region, Slovakia (type locality), Sibenicny vrch near Nová Bana, Zarnovica Co., Banská Bystrica Region, Slovakia (cotype locality) and the Arykevaam epithermal Au-Ag deposit, Anadyr' District, Chukotka Autonomous Okrug, Russian Federation (cotype locality). At the Kremnica deposit argentopolybasite was found as discrete, well-developed (pseudo)hexagonal tabular crystals up to 4 mm in size or as complex crystalline aggregates and groups up to 5 mm in size in cavities of quartz. It is associated with pyrargyrite, polybasite, stephanite, miargyrite, rozhdestvenskayaite-(Zn), argentotetrahedrite-(Zn), naumannite, gold and pyrite. Argentopolybasite is dark grey to black, with a black streak and metallic to opaque lustre. The Mohs hardness is about 3. It is brittle without any observable cleavage and with a conchoidal fracture. The calculated density is 6.403 g cm-3. In reflected light, argentopolybasite is grey, without any observable bireflectance and very weak pleochroism. It shows moderate anisotropy in crossed polarisers with weak greenish and green-blue tints. The reflectance values for wavelengths recommended by the Commission on Ore Mineralogy of the IMA are (Rmin/Rmax, %): 30.3/31.0 (470 nm), 28.8/29.3 (546 nm), 28.1/28.6 (589 nm), 27.4/27.8 (650 nm). The empirical formulae (based on 29 apfu) are, Kremnica: (Ag15.94Cu0.18)16.12(Sb1.40As0.61)2.01(S10.60Se0.25Cl0.03)10.88, Nová Bana: Ag16.30(Sb1.74As0.22)1.96(S10.69Cl0.04)10.73 and Arykevaam: (Ag15.54Cu0.38)15.92(Sb1.56As0.51)2.07S11.01. The ideal end-member formula for argentopolybasite is Ag16Sb2S11. Argentopolybasite is trigonal, space group P321, a = 15.0646(5) A, c = 12.2552(5) A, V = 2408.61(15) A3 and Z = 2. The seven strongest X-ray powder diffraction lines are [dobs in A, (I), hkl]: 12.169, (40), 001; 3.162, (100), 041; 3.045, (54), 004; 2.881, (45), 042; 2.4256, (28), 421. The crystal structure of argentopolybasite from Kremnica, refined to Robs = 0.0741 for 2804 observed reflections, confirmed that the atomic arrangement is isotypic to that of the other members of the polybasite group and it is isostructural with argentopearceite.

KW - argentopolybasite

KW - crystal structure

KW - epithermal mineralization

KW - Kremnica

KW - new mineral

KW - polybasite group

KW - Slovakia

KW - sulfosalts

U2 - 10.1180/mgm.2022.141

DO - 10.1180/mgm.2022.141

M3 - Journal article

AN - SCOPUS:85148851955

VL - 83

SP - 382

EP - 395

JO - Mineralogical Magazine

JF - Mineralogical Magazine

SN - 0026-461X

IS - 3

ER -

ID: 347812740