Variability in sepiolite; diffraction studies

Twenty sepiolites of known composition from different origins were analyzed to quantify the variability in structural parameters and its possible relationships with composition and morphology. Morphology SEM analyses led to classify the sepiolites into several groups, beyond the two simple macroscop...

Full description

Saved in:
Bibliographic Details
Published inThe American mineralogist Vol. 96; no. 10; pp. 1443 - 1454
Main Authors del Río, Manuel Sánchez, García-Romero, Emilia, Suárez, Mercedes, da Silva, Iván, Fuentes-Montero, Luis, Martínez-Criado, Gema
Format Journal Article
LanguageEnglish
Published Washington Mineralogical Society of America 01.10.2011
De Gruyter
Walter de Gruyter GmbH
Subjects
2D diffraction pattern
ab initio simulations
Cations
Clay
crystal structure
Crystallography
Diffraction
electron microscopy data
lattice parameters
Mineralogy
Minerals
Morphology
palygorskite
Rietveld
Rietveld refinement
SAED
SEM
SEM data
Sepiolite
sheet silicates
silicates
Simulation
Single crystals
single-crystal method
TEM
TEM data
unit cell
variations
X-ray diffraction data
X‑ray diffraction
Online AccessGet full text

Cover

More Information
Summary:Twenty sepiolites of known composition from different origins were analyzed to quantify the variability in structural parameters and its possible relationships with composition and morphology. Morphology SEM analyses led to classify the sepiolites into several groups, beyond the two simple macroscopic or clay groups. X-ray powder diffraction with synchrotron light was used to discuss the variability of the a and b cell parameters with the nature of the cations and occupancy of the octahedral shell. Rietveld refinement using the ideal sepiolite model is performed on sepiolites at two temperatures: 225°C (for zeolitically dehydrated sepiolite) and 25°C (for hydrated ambient sepiolite). The latter permitted to locate ca. six molecules of the zeolitic H2O within the tunnels. A few samples were selected to evaluate the feasibility and potential of single-crystal diffraction methods: X-ray microdiffraction and electron diffraction. The macroscopic sepiolites gave well-structured and rich X-ray fiber diffraction patterns, in excellent agreement with ab initio simulations. High-quality single-crystal electron diffraction patterns for three axis zones are indexed and compared with simulations. The experimental and modeling results for X-ray microdiffraction and electron diffraction open a new path for quantitative crystallography on sepiolite and other fibrous clays from the sepiolite-palygorskite group.
ISSN:0003-004X
1945-3027
DOI:10.2138/am.2011.3761