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22. Synchrotron X-ray diffraction study of the structure of shafranovskite, [K.sub.2][Na.sub.3][(Mn,Fe,Na).sub.4] [[Si.sub.9][(O,OH).sub.27]][(OH).sub.2]*n[H.sub.2]O, a rare manganese phyllosilicate from the Kola peninsula, Russia

Author

Krivovichev, Sergey V., Yakovenchuk, Viktor N., Armbruster, Thomas, Pakhomovsky, Yakov A., Weber, Hans-Peter, and Depmeier, Wulf

Subjects
Mineralogy -- Research, Earth sciences
Abstract

The structure of shafranovskirt, ideally [K.sub.2][Na.sub.3] [(Mn,Fe,Na).sub.4] [Si.sub.9][(O.OH).sub.27]][[(OH).sub.2]*n[H.sub.2]O (n ~ 2.33), a K-Na-manganese hydrous silicate from Kola peninsula. Russia, was studied using synchrotron X-ray radiation and a MAR345 image plate detector at tile Swiss-Norwegian beamline of the European Synchrotron Radiation Facility (ESRF, Grenoble, France). The structure [trigonal, space group P3lc, a = 14.519(3), c = 21.062(6) [Angstrom]. V = 3844.9(14) [[Angstrom].sup.3]] was solved by direct methods and partially refined to [R.sub.1] = 0.085 (w[R.sub.2] = 0.238) on the basis of 2243 unique observed refleclions (|[F.sub.0]l [greater than or equal to]2[[sigma].sub.f] Shafranovskite is a 2:1 hydrous phyllosilicate. Sheets of Mn and Na octahedra (O sheets) are sandwiched between two silicate tetrahedral sheets ([T.sub.1] and [T.sub.1]). The 2:1 layers are parallel to (001 ). The upper tetrahedral sheet T, consists of isolated [[Si.sub.3] [(O.OH).sub.3]-] islands composed of three six-membered rings. The octahedral sheet O consists of Mn[[phi].sub.6] Na1[[[phi].sub.6] and Na2[[phi].sub.6], octahedra ([phi] = O, OH, [H.sub.2]O). This unit can be considered as a trioctahedral sheet with each 20th octahedron vacant. The lower tetrahedral sheet [T.sub.2] consists of [[Si.sub.13] [(O, OH).sub.37]] island linked into a sheet through an additional Si[O.sub.3]OH tetrahedron. The Na3, K1, K2 atoms, and [H.sub.2]O32 groups are between the 2:1 layers and provide their linkage along c.

Published
2004

23. Porous titanosilicate nanorods in the structure of yuksporite, [(Sr,Ba).sub.2][K.sub.4][(Ca,[Na).sub.14]([not less than],Mn,Fe) {[(Ti,Nb).sub.4][(O,OH).sub.4][[Si.sub.6][O.sub.17].sub.2] [Si.sub.2][O.sub.7].sub.3]} [([H.sub.2]O,OH].sub.n], resolved using synchrotron radiation

Author

Krivovichev, Sergey V., Yakovenchuk, Victor N., Armbruster, Thomas, Dobelin, Nicola, Pattison, Philipp, Weber, Hans-Peter, and Depmeier, Wulf

Subjects
Mineralogy -- Research, Earth sciences
Abstract

The crystal structure of yuksporite. [(Sr.Ba).sub.2] [K.sub.4][(Ca,Na).sub.14]([cube root],Mn,Fe){[(Ti,Nb).sub.4][(O.OH).sub.4][[Si.sub.6] [O.sub.17].sub.2][[Si.sub.2] [O.sub.7].sub.3]}[(H.sub.2][O.OH).sub.n], where n ~ 3 [monoclinic. P[2.sub.1]/m, a = 7.126(3). b = 24.913(6). c = 17.075(7) [Angstrom]. [beta] = 101.89(3)[degrees], V=2966.4(17) [Angstrom].sup.3] has been solved using X-ray synchrotron radiation data collected from a needle-like crystal with dimensions of 6 x 6 x 50 [micro][m.sup.3] at the Swiss-Norwegian beamline BM01 of the European Synchrotron Research Facility (ESRF. Grenoble, France). The structure was refined to [R.sub.1] = 0.101 on the basis of 2359 unique observed reflections with |F [sub.0]| [greater than or equal to] 4[[sigma].sub.f]. The structure of yuksporite is based upon titanosilicate nanorods elongated along a and with an elliptical cross-section of ca. 16 x 19 [Angstrom] = 1.6 x 1.9 nm. Silicate tetrahedra form double xonotlite-like chains [sup.1.sub.[infinity]] [[Si.sub.6][O.sub.17]] oriented parallel to (00l). Two [sup.1.[infinity][[Si.sub.6][O.sub.17]] chains are linked into a rod via Ti[O.sub.6] octahedra and [Si.sub.2][O.sub.7] double tetrahedra. The {[(Ti.Nb).sub.4][(O.OH).sub.4][[[Si.sub.6][O.sub.17]].sub.2] [[[Si.sub.2][O.sub.7]].sub.3]} nanorods are porous. The internal pores are defined by eight-membered rings (SMR) with open diameters of 3.2 [Angstrom]. The interior of the titanosilicate nanorods is occupied by St, Ba. K. and Na cations and [H.sub.2]O molecules. The nanorods are separated by walls of Ca coordination polyhedra that are parallel to (010) and link the rods into a three-dimensional structure.

Published
2004

35. One-dimensional array of two- and three-center cation-cation bonds in the structure of [Li.sub.4][[(U[O.sub.2]).sub.10][O.sub.10]([Mo.sub.2][O.sub.8])]

Author

Alekseev, Evgeny V., Krivovichev, Sergey V., Malcherek, Thomas, and Depmeier, Wulf

Subjects
Lithium compounds -- Research, Lithium compounds -- Structure, Lithium compounds -- Chemical properties, Ligands -- Research, Ligands -- Chemical properties, Ligands -- Structure, Coordination compounds -- Chemical properties, Coordination compounds -- Structure, Coordination compounds -- Research, Chemistry
Abstract

The preparation and structural characterization of [Li.sub.4][[(U[O.sub.2]).sub.10][O.sub.10]([Mo.sub.2][O.sub.8])] obtained from eight-membered cycles with uranyl ions linked through two- and three-center cation-cation interactions is described. The network of the structure consists of seven-polyhedra-wide uranium oxide tapes interlinked by dimers of edge-sharing [4 1]-distorted Mo[O.sub.5] polyhedra.

Published
2007

36. Lead rare-earth oxyhalides: Syntheses and characterization of [Pb.sub.6]La[O.sub.7]X (X = Cl, Br)

Author

Siidra, Oleg I., Krivovichev, Sergey V., Armbruster, Thomas, and Depmeier, Wulf

Subjects
Halides -- Structure, Halides -- Chemical properties, Lead compounds -- Structure, Lead compounds -- Chemical properties, Chemistry
Abstract

The synthesis and structure of the mixed-metal lead rare-earth oxyhalides of [Pb.sub.6]La[O.sub.7]X (X = Cl, Br) is described. These compounds are the first for which the presence of mixed O[Pb.sub.n][Ln.sub.4-n] tetrahedral is recognized.

Published
2007

42. IUCr – supporting crystallography around the world

Author

Hackert, Marvin, primary, Ashcroft, Alex, additional, Dabkowska, Hanna, additional, Depmeier, Wulf, additional, de Delgado, Graciela Diaz, additional, Garcia-Granda, Santiago, additional, Hasnain, Samar, additional, Kuzel, Radomir, additional, Lidin, Sven, additional, McMahon, Brian, additional, Martin, Jenny, additional, Sharpe, Andrea, additional, Strickland, Peter, additional, Takata, Masaki, additional, and Van Meervelt, Luc, additional

Published
2018
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46. Grootfonteinite, Pb3O(CO3)(2), a new mineral species from the Kombat Mine, Namibia, merotypically related to hydrocerussite

Author

Siidra, Oleg, I, Jonsson, Erik, Chukanov, Nikita, V, Nekrasova, Diana O., Pekov, Igor, V, Depmeier, Wulf, Polekhovsky, Yury S., Yapaskurt, Vasilty O., Siidra, Oleg, I, Jonsson, Erik, Chukanov, Nikita, V, Nekrasova, Diana O., Pekov, Igor, V, Depmeier, Wulf, Polekhovsky, Yury S., and Yapaskurt, Vasilty O.

Abstract

Grootfonteinite, Pb3O(CO3)(2), is a new Pb oxycarbonate found in a mineralogically complex, banded assemblage from the Mn (-Fe) oxide ore unit of the Kombat mine. Grootfonteinite is named after the locality in the Grootfontein district. The mineral forms platy grains up to 1 mm across and up to 0.2 mm thick included in and intergrown with massive cerussite. Grootfonteinite is colourless, with white streak and adamantine lustre. It is brittle with perfect cleavage on (0 0 1). The density calculated using the empirical formula H0.345Na0.275Ca0.045Pb2.645C2O7 is 6.856 g.cm(-3). The strongest five reflections in the X-ray powder-diffraction pattern [(d in angstrom)-(Intensity)-(hkl)] are: 4.586-25-0 1 0, 3.244-100-0 1 3, 2.652-30-1 1 0, 2.294-21-0 2 0, 2.053-39-0 2 3. Grootfonteinite crystallizes in space group P6(3)/mmc (No. 194), a = 5.303(1), c = 13.770(3) angstrom, v= 335.3(1) angstrom(3), Z= 2. The crystal structure of grootfonteinite is formed by layered blocks which consist of sheets with composition [PbCO3] and (ideally) [PbO], the stacking of which can be described as center dot center dot center dot-[PbCO3]-[PbO]-[PbCO3]-center dot center dot center dot The composition of the resulting electroneutral 2D block is {[Pb-2(CO3)(2)][(Pb0.7Na0.3)(O-0.7(OH)(0.3))]}(0). The stereochemically active 6S(2) lone electron pairs of the two Pb atoms are located in between the blocks, resembling the classical case of the structure of litharge. Grootfonteinite is structurally related to hydrocerussite, abellaite, and plumbonacrite. A characteristic structural feature of all these minerals is the presence of [PbCO3](0) sheets in the upper and lower parts of invariably electroneutral 2D blocks, the middle part being variable. The topology of 2D blocks in the crystal structure of grootfonteinite can be considered as intermediate between those of abellaite and hydrocerussite. These three minerals can be considered to form a merotype family. Other members of this family can be hypo

Published
2018
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47. Boronic acid flux synthesis and crystal growth of uranium and neptunium boronates and borates: a low-temperature route to the first neptunium(V) borate

Author

Shuao Wang, Alekseev, Evgeny V., Miller, Hannah M., Depmeier, Wulf, and Albrecht-Schmitt, Thomas E.

Subjects
Methyl groups -- Structure, Methyl groups -- Chemical properties, Neptunium -- Chemical properties, Organoboron compounds -- Structure, Organoboron compounds -- Chemical properties, Uranium -- Chemical properties, Chemistry
Published
2010

50. Particular topological complexity of lead oxide blocks in P[b.sub.31][O.sub.22][X.sub.18] (X=Br, Cl)

Author

Krivovichev, Sergey V., Slidra, Oleg I., Nazerchuk, Evgenii V., Burns, Peter C., and Depmeier, Wulf

Subjects
Lead oxide -- Chemical properties, Lead oxide -- Structure, Phosphorus compounds -- Chemical properties, Phosphorus compounds -- Structure, Chemistry
Abstract

Dark-green platy crystals of the compound P[b.sub.31][O.sub.22][Br.sub.10][C.sub.l8] is obtained by rapid quenching of a lead oxide halide melt. The structure of P[b.sub.31][O.sub.22][Br.sub.10][C.sub.l8] can be viewed as incorporation of [Pb[X.sub.6]][.sup.4-] halide units (X=Br, Cl) into the defect PbO matrix.

Published
2006

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