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Sokolova, E. (2012) Further developments in the structure topology of the astrophyllite-group minerals. Mineralogical Magazine, 76 (4) 863-882 doi:10.1180/minmag.2012.076.4.04

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Reference TypeJournal (article/letter/editorial)
TitleFurther developments in the structure topology of the astrophyllite-group minerals
JournalMineralogical Magazine
AuthorsSokolova, E.Author
Year2012 (August)Volume76
Issue4
PublisherMineralogical Society
Download URLhttps://rruff.info/rruff_1.0/uploads/MM76_863.pdf+
DOIdoi:10.1180/minmag.2012.076.4.04Search in ResearchGate
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Mindat Ref. ID244258Long-form Identifiermindat:1:5:244258:1
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Full ReferenceSokolova, E. (2012) Further developments in the structure topology of the astrophyllite-group minerals. Mineralogical Magazine, 76 (4) 863-882 doi:10.1180/minmag.2012.076.4.04
Plain TextSokolova, E. (2012) Further developments in the structure topology of the astrophyllite-group minerals. Mineralogical Magazine, 76 (4) 863-882 doi:10.1180/minmag.2012.076.4.04
Abstract/NotesThe structure topology and crystal chemistry have been considered for ten astrophyllite-group minerals that contain the HOH layer, a central trioctahedral (O) sheet and two adjacent (H) sheets of [5]- and [6]-coordinated D polyhedra and the astrophyllite (T4O12) ribbons. The HOH layer is characterized by a planar cell with a ∼5.4, b ∼11.9 A ˚ and a^b ∼103°. The ideal composition of the O sheet is Fe72+ (astrophyllite) or Mn72+(kupletskite). All structures consist of an HOH layer and an I (intermediate) block that consists of atoms between two HOH layers. In the astrophyllite group, there are two types of structures based on the type of linkage of HOH layers: (1) HOH layers link directly where they share common vertices of D octahedra, and (2) HOH layers do not link directly via polyhedra of the H sheets. The type-1 structure occurs in astrophyllite, niobophyllite, nalivkinite, tarbagataite, kupletskite, niobokupletskite and kupletskite-(Cs); the type-2 structure occurs in magnesioastrophyllite, sveinbergeite and devitoite. The general formulae for the eight astrophyllite-group minerals (astrophyllite, niobophyllite, nalivkinite, tarbagataite, kupletskite, niobokupletskite, kupletskite-(Cs), magnesioastrophyllite) and for the extended astrophyllite group including devitoite and sveinbergeite are A2BC7D2T8O26(OH)4X0–1 and A2pBrC7D2(T4O12)2IXD2OXA4OXDnP, respectively, where C and D are cations of the O and H sheets, C =[6](Fe2+, Mn, Fe3+, Na, Mg, Zn) at the M(1–4) sites; D = [6,5](Ti, Nb, Zr, Fe3+); T = Si, minor Al; A2pBrI is the composition of the I block where p = 1,2; r = 1,2; A = K, Cs, Li, Ba, H2O, ☐; B = Na, Ca, Ba, H2O, ☐; I represents the composition of the central part of the I block, excluding peripheral layers of the form A2B; X = O, OH, F and H2O; n = 0, 1, 2. Two topological issues have been considered: (1) the pattern of sizes of the M octahedra in the O sheet, M(1) > M(2) > M(3) > M(4) and (2) different topologies of the HOH layer in magnesioastrophyllite and all other structures of the astrophyllite group.

Mineral Pages

MineralCitation Details
Astrophyllite
Astrophyllite Group
Astrophyllite Supergroup
Nalivkinite
Tarbagataite

See Also

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Macdonald, R., Saunders, M. J. (1973) Chemical variation in minerals of the astrophyllite group. Mineralogical Magazine, 39 (301) 97-111 doi:10.1180/minmag.1973.039.301.15
Cámara, F., Sokolova, E., Hawthorne, F. C., Abdu, Y. (2008) From structure topology to chemical composition. IX. Titanium silicates: revision of the crystal chemistry of lomonosovite and murmanite, Group-IV minerals. Mineralogical Magazine, 72 (6) 1207-1228 doi:10.1180/minmag.2008.072.6.1207
Sokolova, Elena, Cámara, Fernando, Hawthorne, Frank C., Ciriotti, Marco E. (2017) The astrophyllite supergroup: nomenclature and classification. Mineralogical Magazine, 81 (1) 143-153 doi:10.1180/minmag.2016.080.077
Cámaraite, F., Sokolova, E. (2009) From structure topology to chemical composition. X. Titanium silicates: the crystal structure and crystal chemistry of nechelyustovite, a group III Ti-disilicate mineral. Mineralogical Magazine, 73 (5) 753-775 doi:10.1180/minmag.2009.073.5.753
Cámara, F., Sokolova, E. (2009) From structure topology to chemical composition. X. Titanium silicates: the crystal structure and crystal chemistry of nechelyustovite, a group III Ti-disilicate mineral. Mineralogical Magazine, 73 (5) 753-775 doi:10.1180/minmag.2009.073.5.753
Cámara, F., Sokolova, E. (2007) From structure topology to chemical composition. VI. Titanium silicates: the crystal structure and crystal chemistry of bornemanite, a group III Ti-disilicate mineral. Mineralogical Magazine, 71 (6) 593-610 doi:10.1180/minmag.2007.071.6.593
Cámara, F., Sokolova, E., Hawthorne, F. C. (2012) Kazanskyite, Ba□TiNbNa3Ti(Si2O7)2O2(OH)2(H2O)4, a Group-III Ti-disilicate mineral from the Khibiny alkaline massif, Kola Peninsula, Russia: description and crystal structure. Mineralogical Magazine, 76 (3) 473-492 doi:10.1180/minmag.2012.076.3.03
Khomyakov, A. P., Cámara, F., Sokolova, E., Abdu, Y., Hawthorne, F. C. (2011) Sveinbergeite, Ca(Fe2+6 Fe3+)Ti2(Si4O12)2O2(OH)5(H2O)4, a new astrophyllite-group mineral from the Larvik Plutonic Complex, Oslo Region, Norway: description and crystal structure. Mineralogical Magazine, 75 (5) 2687-2702 doi:10.1180/minmag.2011.075.5.2687
Sokolova, E., Cámara, F. (2008) From structure topology to chemical composition.VIII. Titanium silicates: the crystal chemistry of mosandrite from type locality of Låven (Skådön), Langesundsfjorden, Larvik, Vestfold, Norway. Mineralogical Magazine, 72 (4) 887-897 doi:10.1180/minmag.2008.072.4.887
Sokolova, E., Cámara, F., Hawthorne, F. C., Pautov, L. A. (2016) From structure topology to chemical composition. XX. Titanium silicates: the crystal structure of hejtmanite, Ba2Mn4Ti2(Si2O7)2O2(OH)2F2, a Group-II TS-block mineral. Mineralogical Magazine, 80 (5) 841-853 doi:10.1180/minmag.2016.080.026
Cámara, F., Sokolova, E., Hawthorne, F. C. (2011) From structure topology to chemical composition. XII. Titanium silicates: the crystal chemistry of rinkite, Na2Ca4REETi(Si2O7)2OF3. Mineralogical Magazine, 75 (6) 2755-2774 doi:10.1180/minmag.2011.075.6.2755
 
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