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Geometrische Größen und einfache Modellrechnungen für BO4-Gruppen

Published/Copyright: August 25, 2010
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Zeitschrift für Kristallographie
From the journal Zeitschrift für Kristallographie Volume 191 Issue 1-2

Abstract

Most BO4-groups deviate significantly from a regular tetrahedron with symmetry [unk]3m-Td. The geometry of these deviations and the extent of the distortions are the main topics of this study. The shapes of 256 borate groups in 128 compounds have been investigated. In BO3-groups with O … BO3 distances shorter than 3 Å the boron atom is displaced from the plane of the BO3-group towards the fourth oxygen atom. The displacement increases as the O … B distance decreases. Borate groups in orthorhombic and cubic boracites seem to represent the extreme distortions of OB[3+1]O3- and B[4]O4-groups, respectively. Mean B—O distances of the 242 B[4]O4-groups vary from 1.444 to 1.534 Å, individual B—O distances from 1.373 to 1.699 Å [mean value = 1.476(35) Å], individual O—B—O angles from 95.72 to 119.43° [mean value = 109.44(2.78)°]. Two simple models, e.g. a variant of a hybrid orbital model and a ligand repulsion model, have been used to calculate the shape of BO4-groups with trigonal symmetry, which are in good agreement with those experimentally determined.

Published Online: 2010-08-25
Published in Print: 1990

Articles in the same Issue

  1. Solid state polymerization of diacetylenes
  2. Solid state polymerization of diacetylenes 4*
  3. Solid state polymerization of diacetylenes
  4. Search tree method for the determination of similarity operators between arbitrary lattices
  5. Bond valence VS bond length and Pauling's bond strength: The Ca – O bond
  6. Geometrische Größen und einfache Modellrechnungen für BO4-Gruppen
  7. The crystal structure of 1-methyltriphenylene
  8. Structure cristalline de la (1R,5R)-(+)-dibenzyl-3,3 nopinone. Dichroïsme circulaire des dérivés dialkylés de la nopinone
  9. Neutron powder investigation of CuI*
  10. Single crystal structure refinement of high-pressure ZnGeO3 ilmenite
  11. Structural investigation of an antimony-rich pinakiolite, Mg1.90Mn0.91Sb0.19O2BO3, from Långban, Sweden
  12. The crystal structure of δ-yttrium pyrosilicate, δ-Y2Si2O7
  13. Crystal structure of mimetite, Pb5(AsO4)3Cl
  14. Advanced Techniques for Microstructural Characterization
  15. New Crystal Structures
  16. Crystal structure of silver pentabromodiplumbate, AgPb2Br5
  17. Crystal structure refinement of rubidium vanadium diphosphate, RbVP2O7
  18. Crystal structure of niobium pentachloride, NbCl5
  19. Crystal structure of copper(I) tetrachlorogallate, CuGaCl4
  20. Crystal structure of η5-cyclopentadienyl-di-η2-(tert.butylamine-diallyl)cobalt(II), (C5H5)CoC6H10NC(CH3)3
  21. Crystal structure of 8-(α-phenylethyl)-aminochinolin-palladium(II) chloride, (C9H6N)PdCl2(NH(CH3)(CH)(C6H5))
  22. Crystal structure refinement of decacarbonylbis(triphenylphosphine)tetrairidium, (CO)10(P(C6H5)3)2Ir4
  23. Crystal structure of nonacarbonyl-trimethylphosphine-dimanganese, ((CH3)3P)(CO)4Mn2(CO)5
  24. Crystal structure of diaqua-bis(diaminoethane)-copper bis(1-oxo-1,2-diphenyl-3,3,5-tricarbbutoxy-1,2-diphosphacyclopentanonate) bis(methanol), (H2O)2Cu(C2H8N2)2(C30H37O8P2)2(CH3OH)2
https://doi.org/10.1524/zkri.1990.191.1-2.45

Articles in the same Issue

  1. Solid state polymerization of diacetylenes
  2. Solid state polymerization of diacetylenes 4*
  3. Solid state polymerization of diacetylenes
  4. Search tree method for the determination of similarity operators between arbitrary lattices
  5. Bond valence VS bond length and Pauling's bond strength: The Ca – O bond
  6. Geometrische Größen und einfache Modellrechnungen für BO4-Gruppen
  7. The crystal structure of 1-methyltriphenylene
  8. Structure cristalline de la (1R,5R)-(+)-dibenzyl-3,3 nopinone. Dichroïsme circulaire des dérivés dialkylés de la nopinone
  9. Neutron powder investigation of CuI*
  10. Single crystal structure refinement of high-pressure ZnGeO3 ilmenite
  11. Structural investigation of an antimony-rich pinakiolite, Mg1.90Mn0.91Sb0.19O2BO3, from Långban, Sweden
  12. The crystal structure of δ-yttrium pyrosilicate, δ-Y2Si2O7
  13. Crystal structure of mimetite, Pb5(AsO4)3Cl
  14. Advanced Techniques for Microstructural Characterization
  15. New Crystal Structures
  16. Crystal structure of silver pentabromodiplumbate, AgPb2Br5
  17. Crystal structure refinement of rubidium vanadium diphosphate, RbVP2O7
  18. Crystal structure of niobium pentachloride, NbCl5
  19. Crystal structure of copper(I) tetrachlorogallate, CuGaCl4
  20. Crystal structure of η5-cyclopentadienyl-di-η2-(tert.butylamine-diallyl)cobalt(II), (C5H5)CoC6H10NC(CH3)3
  21. Crystal structure of 8-(α-phenylethyl)-aminochinolin-palladium(II) chloride, (C9H6N)PdCl2(NH(CH3)(CH)(C6H5))
  22. Crystal structure refinement of decacarbonylbis(triphenylphosphine)tetrairidium, (CO)10(P(C6H5)3)2Ir4
  23. Crystal structure of nonacarbonyl-trimethylphosphine-dimanganese, ((CH3)3P)(CO)4Mn2(CO)5
  24. Crystal structure of diaqua-bis(diaminoethane)-copper bis(1-oxo-1,2-diphenyl-3,3,5-tricarbbutoxy-1,2-diphosphacyclopentanonate) bis(methanol), (H2O)2Cu(C2H8N2)2(C30H37O8P2)2(CH3OH)2
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