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Influence of charge location on 29Si NMR chemical shift of 2:1 phyllosilicates

  • Jesús Sanz EMAIL logo , Jean-Louis Robert , Magali Diaz and Isabel Sobrados
Published/Copyright: March 31, 2015
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American Mineralogist
From the journal American Mineralogist Volume 91 Issue 4

Abstract

A series of synthetic sodium-rich saponites and trioctahedral Na, K, and Ba mica solid solutions have been investigated by 29Si MAS-NMR spectroscopy. The salient result is the major effect of the interlayer charge on 29Si chemical shift variations detected in NMR components ascribed to tetrahedral Si3, Si2Al, SiAl2, and Al3 environments. In this analysis, the effect of the octahedral charge is considerably lower. The contribution of the interlayer charge is much more important than the previously reported contribution of the ditrigonal distortion of tetrahedral layers, generated by the misfit between tetrahedral and octahedral layers. This observation rests on the peculiar disposition of tetrahedra in phyllosilicates, with three out of four oxygen atoms exposed to the interlamellar space. A similar effect could be operative in other silicates, like zeolites, in which most of tetrahedra interact with charge compensating cations.

Keywords : Phyllosilicates; crystal structure; order-disorder; chemical shift; 29Si NMR spectroscopy
Received: 2004-11-17
Accepted: 2005-7-9
Published Online: 2015-3-31
Published in Print: 2006-4-1

© 2015 by Walter de Gruyter Berlin/Boston

Articles in the same Issue

  1. Structural model for the biogenic Mn oxide produced by Pseudomonas putida
  2. Electron-beam (5–10 keV) damage in triplite-group phosphates: Consequences for electron-microprobe analysis of fluorine
  3. Vacancy defects in MgO at high pressure
  4. Plastic flow of pyrope at mantle pressure and temperature
  5. Parvo-mangano-edenite, parvo-manganotremolite, and the solid solution between Ca and Mn2+ at the M4 site in amphiboles
  6. Reinvestigation of the MgSiO3 perovskite structure at high pressure
  7. The mechanism and kinetics of α-NiS oxidation in the temperature range 670–700°C
  8. Influence of charge location on 29Si NMR chemical shift of 2:1 phyllosilicates
  9. The size distribution of exsolution lamellae in iron-free clinopyroxene
  10. The high-pressure phase transformation and breakdown of MgFe2O4
  11. Elastic behavior, phase transition, and pressure induced structural evolution of analcime
  12. A new chemical etching technique for peridotites using molten anhydrous borax
  13. Poppiite, the V3+ end-member of the pumpellyite group: Description and crystal structure
  14. Cation redistribution in the octahedral sheet during diagenesis of illite-smectites from Jurassic and Cambrian oil source rock shales
  15. A shock-induced polymorph of anatase and rutile from the Chesapeake Bay impact structure, Virginia, U.S.A.
  16. Water in the interlayer region of birnessite: Importance in cation exchange and structural stability
  17. In situ HAFM study of the thermal dehydration on gypsum (010) surfaces
  18. Influence of dehydration kinetics on T-O-T bridge breaking in zeolites with framework type STI: The case of stellerite
  19. Estimation of volume fractions of liquid and vapor phases in fluid inclusions, and definition of inclusion shapes
  20. Thermodynamics of uranyl minerals: Enthalpies of formation of uranyl oxide hydrates
  21. SIMS investigation of electron-beam damage to hydrous, rhyolitic glasses: Implications for melt inclusion analysis
  22. Synthetic Ag-rich tourmaline: Structure and chemistry
  23. Genesis and compositional heterogeneity of smectites. Part III: Alteration of basic pyroclastic rocks—A case study from the Troodos Ophiolite Complex, Cyprus
  24. Ganterite, the barium mica Ba0.5K0.5Al2(Al1.5Si2.5)O10(OH)2, from Oreana, Nevada
  25. Letter. Transformation of pentlandite to violarite under mild hydrothermal conditions
https://doi.org/10.2138/am.2006.1850
Keywords for this article
Phyllosilicates; crystal structure; order-disorder; chemical shift; 29Si NMR spectroscopy

Articles in the same Issue

  1. Structural model for the biogenic Mn oxide produced by Pseudomonas putida
  2. Electron-beam (5–10 keV) damage in triplite-group phosphates: Consequences for electron-microprobe analysis of fluorine
  3. Vacancy defects in MgO at high pressure
  4. Plastic flow of pyrope at mantle pressure and temperature
  5. Parvo-mangano-edenite, parvo-manganotremolite, and the solid solution between Ca and Mn2+ at the M4 site in amphiboles
  6. Reinvestigation of the MgSiO3 perovskite structure at high pressure
  7. The mechanism and kinetics of α-NiS oxidation in the temperature range 670–700°C
  8. Influence of charge location on 29Si NMR chemical shift of 2:1 phyllosilicates
  9. The size distribution of exsolution lamellae in iron-free clinopyroxene
  10. The high-pressure phase transformation and breakdown of MgFe2O4
  11. Elastic behavior, phase transition, and pressure induced structural evolution of analcime
  12. A new chemical etching technique for peridotites using molten anhydrous borax
  13. Poppiite, the V3+ end-member of the pumpellyite group: Description and crystal structure
  14. Cation redistribution in the octahedral sheet during diagenesis of illite-smectites from Jurassic and Cambrian oil source rock shales
  15. A shock-induced polymorph of anatase and rutile from the Chesapeake Bay impact structure, Virginia, U.S.A.
  16. Water in the interlayer region of birnessite: Importance in cation exchange and structural stability
  17. In situ HAFM study of the thermal dehydration on gypsum (010) surfaces
  18. Influence of dehydration kinetics on T-O-T bridge breaking in zeolites with framework type STI: The case of stellerite
  19. Estimation of volume fractions of liquid and vapor phases in fluid inclusions, and definition of inclusion shapes
  20. Thermodynamics of uranyl minerals: Enthalpies of formation of uranyl oxide hydrates
  21. SIMS investigation of electron-beam damage to hydrous, rhyolitic glasses: Implications for melt inclusion analysis
  22. Synthetic Ag-rich tourmaline: Structure and chemistry
  23. Genesis and compositional heterogeneity of smectites. Part III: Alteration of basic pyroclastic rocks—A case study from the Troodos Ophiolite Complex, Cyprus
  24. Ganterite, the barium mica Ba0.5K0.5Al2(Al1.5Si2.5)O10(OH)2, from Oreana, Nevada
  25. Letter. Transformation of pentlandite to violarite under mild hydrothermal conditions
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