Crystal structure and chemistry of skarn-associated bismuthian vesuvianite

Hålenius, Ulf; Bosi, Ferdinando; Gatedal, Kjell

doi:10.2138/am.2013.4310

Cited by 7 publications

(6 citation statements)

References 25 publications

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“…In accordance with the Mö ssbauer spectrum and chemical composition, this site contains Fe 2+ , Fe 3+ and Ti. This result is in agreement with the composition (Al 4.17 Fe 1.79 Mg 1.62 Ti 0.40 ) AE8 determined for the Y3 site of bismuthian vesuvianite containing 2.28 wt% TiO 2 (Hå lenius et al, 2013). A titanium arrangement is also confirmed by the octahedral distortion Á of the Y2 and Y3 sites [Á Y2 = 2.579 and Á Y3 = 12.245, where Á = (1/6) (Brown & Shannon, 1973)], which indicates that the Y3' 6 octahedron is more distorted than the Y2' 6 octahedron in accordance with titanium stereochemistry.…”

Section: Figuresupporting

confidence: 91%

Towards a revisitation of vesuvianite-group nomenclature: the crystal structure of Ti-rich vesuvianite from Alchuri, Shigar Valley

Aksenov

Чуканов

Rusakov

et al. 2016

Acta Crystallogr B Struct Sci Cryst Eng Mater

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Vesuvianite containing 5.85 wt% TiO from an Alpine-cleft-type assemblage outcropped near Alchuri, Shigar Valley, Northern Areas, Pakistan, has been investigated by means of electron microprobe analyses, gas-chromatographic analysis of HO, X-ray powder diffraction, single-crystal X-ray structure refinement, Al NMR,Fe Mössbauer spectroscopy, IR spectroscopy and optical measurements. Tetragonal unit-cell parameters are: a = 15.5326 (2), c = 11.8040 (2) Å, space group P4/nnc. The structure was refined to final R = 0.031, wR = 0.057 for 11247 I > 2σ(I). A general crystal-chemical formula of studied sample can be written as follows (Z = 2): (CaNa) Ca(FeFeMg) (AlMg) (AlTiFeFe) (SiO) [(OH)OF]. The octahedral site Y2 is Al-dominant and does not contain transition elements. Another octahedral site Y3 is also Al-dominant and contains Fe, Fe and Ti. The site Y1 is split into Y1a and Y1b predominantly occupied by Fe and Fe, respectively. The role of the Y1 site in the diversity of vesuvianite-group minerals is discussed.

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Section: Figuresupporting

confidence: 91%

Towards a revisitation of vesuvianite-group nomenclature: the crystal structure of Ti-rich vesuvianite from Alchuri, Shigar Valley

Aksenov

Чуканов

Rusakov

et al. 2016

Acta Crystallogr B Struct Sci Cryst Eng Mater

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“…Grossular shows an intermediate composition towards andradite and, as expected, a total lack of Pb. Mineral chemistry of our associated phases is strongly related to those found by [26][27][28] on Långban phases. In the recent definition of the margarosanite group [29], the crystal chemical relationships between the lead silicate margarosanite, ideally PbCa 2 Si 3 O 9 , walstromite (BaCa 2 Si 3 O 9 ), and breyite (CaCa 2 Si 3 O 9 ) are described.…”

Section: Chemical Datasupporting

confidence: 61%

“…Selected bond distances (in Å) in zoisite-(Pb). Quadratic elongation (QE) parameter calculated, according to[28].…”

mentioning

confidence: 99%

Zoisite-(Pb), a New Orthorhombic Epidote-Related Mineral from the Jakobsberg Mine, Värmland, Sweden, and Its Relationships with Hancockite

et al. 2021

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The new mineral zoisite-(Pb), ideally CaPbAl3(SiO4)(Si2O7)O(OH), was discovered in a sample from the Jakobsberg manganese-iron oxide deposit, Värmland, Sweden. Zoisite-(Pb) is found as pale pink subhedral prisms elongated on [010], up to 0.3 mm in size, associated with calcite, celsian, diopside, grossular, hancockite, hyalophane, native lead, phlogopite, and vesuvianite. Associated feldspars show one of the highest PbO contents (~7–8 wt%) found in nature. Electron-microprobe analysis of zoisite-(Pb) point to the empirical formula (Ca1.09Pb0.86Mn2+0.01Na0.01)∑1.97(Al2.88Fe3+0.10Mn3+0.04)∑3.02Si3.00O12(OH)1.00. The eight strongest diffraction lines [dobs, Iobs, (hkl)] are 8.63 s (101), 8.11 mw (200), 4.895 m (011), 4.210 m (211), 3.660 s (112, 311), 3.097 mw (312), 2.900 s (013), and 2.725 m (511). Zoisite-(Pb) is isostructural with zoisite and its crystal structure was refined up to R1 = 0.0213 for 2013 reflections with Fo > 4σ(Fo). Pb shows a stereochemically active lone pair leading to a lopsided distribution of its coordinating oxygens. A full chemical and Raman characterization of zoisite-(Pb) and of the Pb-bearing epidote hancockite is reported, together with an improved crystal structural model of hancockite, refined up to R1 = 0.0254 for 2041 reflections with Fo > 4σ(Fo). The effects of the incorporation of Pb in the crystal structure of zoisite-(Pb), hancockite, and related synthetic and natural phases are described and discussed.

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“…They [20] Y2 Mg 2+ + Y3 Ti 4+ ↔ Y2 Al 3+ + Y3 Al 3+ [21] X1,4 Ca 2+ + Y2,3 Al 3+ ↔ X1,4 Na + + Y2, 3 Ti 4+ in "natrovesuvianite" [22] Y1 Cu 2+ + Y2, 3 Mn 3+ ↔ Y1 Fe 3+ + Y2, 3 Mg 2+ in cyprine [23] Y1 Mg 2+ + Y3 Al 3+ ↔ Y1 Fe 3+ + Y3 Mg 2+ in magnesiovesuvianite [24] Y1 Fe 3+ ↔ Y1 Al 3+ in alumovesuvianite [25] At present, the vesuvianite group consists of seven mineral species (Table 1), distinguished by the dominant component at five-coordinated Y1 site, as well as T1 and T2 and anionic W positions. Taking into account cation ordering in the octahedral positions and the incorporation of additional B, Na and (H 4 O 4 ) 4− into the structure, the general formula of the vesuvianite-group minerals can be written as follows (Z = 2): X 16 X1 2 X4Y1Y2 4 Y3 8 T 0-5 (Z 2 O 7 ) 4 [(ZO 4 ) 10−x (H 4 O 4 ) x ](W) 9 O 1-3 , where x < 3, X are seven-to nine-coordinated sites (Ca, Na, K, Fe 2+ , REE), X4 has square antiprismatic coordination (Ca, Na), Y1 has square pyramidal coordination (Fe 3+ , Mg, Al, Fe 2+ , Cu 2+ ), Y2 and Y3 have octahedral coordination (Al, Mg, Zn, Fe 2+ , Fe 3+ , Mn 2+ , Mn 3+ , Ti, Cr, Zn), T is the additional site with triangular or tetrahedral coordination (B, Fe), ZO 4 [SiO 4 , , (OH) 4 , AlO 4 ] and Z 2 O 7 (Si 2 O 7 ) and the additional anionic position W can be occupied by OH, F, or minor O, Cl [12,13,15,17,19,21,[26][27][28][29].…”

Section: Introductionmentioning

confidence: 99%

Vesuvianite from the Somma-Vesuvius Complex: New Data and Revised Formula

et al. 2017

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At present, the vesuvianite group of minerals consists of eight members, six of which are distinguished by the dominant cation in the Y1(A,B) five-coordinated site. We investigated two vesuvianite samples from the type locality by electron microprobe analysis, Mössbauer and infrared spectroscopy, TGA/DSC, MAS NMR, single-crystal and powder X-ray diffraction. The crystal structures of these samples (# 27844 and 51062 from the Vesuvius collection, Fersman Mineralogical Museum, Moscow) have been refined to R 1 = 0.027 and R 1 = 0.035, respectively. Both samples have the space group P4/nnc; a = 15.5720(3) and 15.5459(3), c = 11.8158(5) and 11.7988(4), respectively. In both samples low-occupied T1 and T2 sites are populated by minor B and Al, which agrees with their high-temperature origin. According to our experimental results, the general revised crystal-chemical formula of vesuvianite can be written as VII

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Crystal structure and chemistry of skarn-associated bismuthian vesuvianite

Cited by 7 publications

References 25 publications

Towards a revisitation of vesuvianite-group nomenclature: the crystal structure of Ti-rich vesuvianite from Alchuri, Shigar Valley

Towards a revisitation of vesuvianite-group nomenclature: the crystal structure of Ti-rich vesuvianite from Alchuri, Shigar Valley

Zoisite-(Pb), a New Orthorhombic Epidote-Related Mineral from the Jakobsberg Mine, Värmland, Sweden, and Its Relationships with Hancockite

Vesuvianite from the Somma-Vesuvius Complex: New Data and Revised Formula

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