2002
DOI: 10.2113/gscanmin.40.5.1437
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THE CRYSTAL STRUCTURE OF SYNTHETIC KUTINAITE, Cu14Ag6As7

Abstract: The crystal structure of synthetic kutinaite, Cu 14 Ag 6 As 7 , was determined from powder-diffraction data recorded on a Guinier diffractometer and refined by Rietveld method with the program FULLPROF. The final refinement (⌬/ max < 0.2) with 31 (9 profile and 23 structural) parameters using 4600 data points and 226 reflections yielded the following agreement indices: R wp = 18.2%, R p = 13.4%, R exp = 14.7%, S = 1.54, R(B) = 1.78%. The cubic structure has a equal to 11.78079(2) Å (standard uncertainties are … Show more

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Cited by 4 publications
(5 citation statements)
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References 16 publications
(16 reference statements)
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“…We can observe that the Me-Me distances are mostly shorter to the cations participating in other configurations than to those participating in the 'own' one, giving an alloy character to the examined compound. In agreement with this, one can still find the icosahedral Cu-As-Ag configurations around As1, Ag and Cu1A as defined in the synthetic phase by Karanovićet al (2002), as well as the cube of 8 Cu atoms around As, and other features defined for the synthetic phase, in the natural phase studied here.…”
Section: Crystal Structuresupporting
confidence: 87%
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“…We can observe that the Me-Me distances are mostly shorter to the cations participating in other configurations than to those participating in the 'own' one, giving an alloy character to the examined compound. In agreement with this, one can still find the icosahedral Cu-As-Ag configurations around As1, Ag and Cu1A as defined in the synthetic phase by Karanovićet al (2002), as well as the cube of 8 Cu atoms around As, and other features defined for the synthetic phase, in the natural phase studied here.…”
Section: Crystal Structuresupporting
confidence: 87%
“…We find the latter description mode most suitable for the natural kutinaite structure. Atom notation (Table 3) in the present refinement is directly related to that used for the cubic synthetic phase by Karanovićet al (2002).…”
Section: Crystal Structurementioning
confidence: 99%
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“…This is an alloy full of metal-metal bonds; however, As still plays a role of anion in it. Unlike synthetic 'kutinaite' Cu 14 Ag 6 As 7 [77,78] which is cubic, Pm-3m and full of partly occupied atom sites without cavities, natural kutinaite turned out to be tetragonal (a 11.789 Å, c 11.766 Å), space group P4/mmm. In this structure, clusters of 8 edge-sharing tetrahedra of copper alternate in a three-dimensional chess-board pattern with octahedral clusters of six silver atoms, surrounded by triangularly coordinated copper atoms, situated in eight faces of a cuboctahedron.…”
Section: Cage Structuresmentioning
confidence: 99%
“…In the next section we briefly review how to solve a crystal structure from powder diffraction data with special emphasis on the recently introduced clusterbased variant of Patterson-function direct methods (hereafter denoted cPDM) that has been employed for solving the crystal structure of the title mineral sarmientite (Rius, 2011). Some previous noteworthy examples of minerals whose structures have been solved by ab initio powder diffraction methods are priceite (Wallwork et al, 2002), kutinaite (Karanović et al, 2002), kingite (Wallwork et al, 2003), souzalite-gormanite (Le Bail et al, 2003), aerinite (Rius et al, 2004), parascorodite (Perchiazzi et al, 2004), anthoinite (Grey et al, 2010), sanjuanite (Colombo et al, 2011), and cranswickite (Peterson, 2011). Detailed descriptions on the methodologies for solving and refining crystal structures from powder diffraction data can be found in David et al (2002) and in Young (1993), respectively.…”
Section: Introductionmentioning
confidence: 99%