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Quadratite, AgCdAsS3: Chemical composition, crystal structure, and OD character

  • Luca Bindi EMAIL logo , Paul G. Spry , Paola Bonazzi , Emil Makovicky and Tonci Balić-Žunić
Published/Copyright: March 7, 2015
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American Mineralogist
From the journal American Mineralogist Volume 98 Issue 1

Abstract

A re-investigation of the crystal structure of quadratite, ideally AgCdAsS3, was undertaken using a single crystal from the type locality, Lengenbach, Binntal, Switzerland. The average of five electron microprobe analyses led to the empirical formula (Ag0.994Cd0.738Pb0.231Cu0.006Tl0.005Mn0.003Fe0.004Zn0.002 Cr0.001)Σ=1.984(As0.955Sb0.003)Σ=0.958S3.058. A single-crystal structure refinement (R1 = 4.84% for 558 observed reflections) shows that quadratite crystallizes in the space group P4322 and exhibits an atomic arrangement similar to that of the recently approved new mineral manganoquadratite, AgMnAsS3. Like manganoquadratite, quadratite adopts a galena-derivative framework, with metal atoms occupying all the available octahedral interstices, although only M1 and M2 cations, occupied mainly by Cd, adopt a fairly regular octahedral coordination; the M3 cation, occupied by Ag, is located outside the center cavity in a square-pyramidal coordination, whereas Pb at the split position M3′ coordinates six S atoms. Arsenic also adopts a 3 + 3 asymmetrical coordination, thus forming the AsS3 pyramidal groups that typically occur in sulfosalts.

The structure can be also described as a stacking of BAB slabs [A: (Cd,Ag)CdS2 atomic plane; B: (Ag,Pb)AsS2 atomic plane] along [001]. The rectangular unit cell of these slabs is oriented diagonally to the a axes of quadratite and consecutive slabs are related via interlayer twofold rotation operations parallel either to [100] or to [010]. This ambiguity leads to an OD structure with various possible stacking sequences, from which the tetragonal space group P4322 was observed.

Keywords : Quadratite; Cd-sulfosalts; crystal structure; chemical composition; OD character; Lengenbach
Received: 2012-6-4
Accepted: 2012-8-13
Published Online: 2015-3-7
Published in Print: 2013-1-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am.2013.4254
Keywords for this article
Quadratite; Cd-sulfosalts; crystal structure; chemical composition; OD character; Lengenbach

Articles in the same Issue

  1. H/D isotope effects in brucite at low temperatures
  2. Coupled H and Nb, Cr, and V trace element behavior in synthetic rutile at 600 °C, 400 MPa and possible geological application
  3. Dissolution-reprecipitation vs. solid-state diffusion: Mechanism of mineral transformations in sylvanite, (AuAg)2Te4, under hydrothermal conditions
  4. Compression and structure of brucite to 31 GPa from synchrotron X-ray diffraction and infrared spectroscopy studies
  5. Full analysis of feldspar texture and crystal structure by combining X-ray and electron techniques
  6. Correlating planar microstructures in shocked zircon from the Vredefort Dome at multiple scales: Crystallographic modeling, external and internal imaging, and EBSD structural analysis
  7. A spectroscopic and carbon-isotope study of mixed-habit diamonds: Impurity characteristics and growth environment
  8. Thermal infrared and Raman microspectroscopy of moganite-bearing rocks
  9. Mineralogical characterization and formation of Fe-Si oxyhydroxide deposits from modern seafloor hydrothermal vents
  10. Cathodoluminescence properties of quartz eyes from porphyry-type deposits: Implications for the origin of quartz
  11. Microbeam X-ray analysis of Ce3+/Ce4+ in Ti-rich minerals: A case study with titanite (sphene) with implications for multivalent trace element substitution in minerals
  12. Aluminum ordering and clustering in Al-rich synthetic phlogopite: The influence of fluorine investigated by {19F/1H} 29Si CPMAS NMR spectroscopy
  13. DFT+U investigation of the catalytic properties of ferruginous clay
  14. A thermodynamic model for silica and aluminum in alkaline solutions with high ionic strength at elevated temperatures up to 100 °C: Applications to zeolites
  15. Nanopores in hematite (α-Fe2O3) nanocrystals observed by electron tomography
  16. Berthierine-like mineral formation and stability during the interaction of kaolinite with metallic iron at 90 °C under anoxic and oxic conditions
  17. An X-ray diffraction study of the pressure-induced hydration in cordierite at 4–5 GPa
  18. Natural occurrence of keatite precipitates in UHP clinopyroxene from the Kokchetav Massif: A TEM investigation
  19. High-pressure Raman spectroscopy, vibrational mode calculation, and heat capacity calculation of calcium ferrite-type MgAl2O4 and CaAl2O4
  20. First-principles study on the high-pressure phase transition and elasticity of KAlSi3O8 hollandite
  21. Zircon growth and recrystallization during progressive metamorphism, Barrovian zones, Scotland
  22. Saltonseaite, K3NaMn2+Cl6, the Mn analogue of rinneite from the Salton Sea, California
  23. Rongibbsite, Pb2(Si4Al)O11(OH), a new zeolitic aluminosilicate mineral with an interrupted framework from Maricopa County, Arizona, U.S.A.
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  25. Crystal chemistry of layered Pb oxychloride minerals with PbO-related structures: Part I. Crystal structure of hereroite, [Pb32O20(O,⃞)](AsO4)2[(Si,As,V,Mo)O4]2Cl10
  26. Crystal chemistry of layered Pb oxychloride minerals with PbO-related structures: Part II. Crystal structure of vladkrivovichevite, [Pb32O18][Pb4Mn2O]Cl14(BO3)8·2H2O
  27. Amorphous materials: Properties, structure, and durability: Acceleration and inhibition effects of phosphate on phase transformation of amorphous calcium carbonate into vaterite
  28. Letter: Implications of equilibrium and disequilibrium among crystal phases in the Bishop Tuff
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