Journal
AMERICAN MINERALOGIST
Volume 95, Issue 8-9, Pages 1247-1256Publisher
MINERALOGICAL SOC AMER
DOI: 10.2138/am.2010.3482
Keywords
Zeolite; boggsite; high pressure; compressibility; over-hydration; crystal structure; synchrotron XRPD data
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This paper reports the results of an in situ high-pressure synchrotron X-ray powder diffraction investigation on the natural zeolite boggsite [(K(0.06)Na(0.36)Sr(0.01)Ca(7.00)Mg(1.20))(Al(17.52)Si(78.62)Fe(0.05)O(192))center dot 82.3 H(2)O]. The study was performed using both a (16:3:1) methanol:ethanol:water mixture (mew.) as a nominally penetrating hydrostatic P-transmitting medium and silicon oil (s.o.) as a non-penetrating medium. The studied pressure ranges are: P(amb)-7.6 and P(amb)-5.9 GPa in m.e.w and s.o., respectively. No complete X-ray amorphization is observed up to the highest investigated pressures, and the original unit-cell parameters are almost completely recovered upon decompression in both media. The reductions of a, b, c, and V, within the pressure-ranges investigated, are 5.3, 4.2, 4.0, and 13.0% in s.o. and 4.1, 4.1, 3.8, and 11.5% in mew. The Rietveld structural refinements of the powder patterns of the experiments in m.e.w, converged successfully up to 3.6 GPa and demonstrated the penetration of 13 additional water molecules between 0.3 and 2.9 GPa. This over-hydration occurs without any unit-cell volume expansion and can be explained by the fact that no new extraframework sites arise during compression and that water penetration is the only factor to increase the occupancy of already existing sites. Boggsite compressibility is higher in s.o. than in m.e.w. In particular, compressibility in m.e.w. is lower below 3 GPa, whereas above this pressure, the P-V trend becomes similar in the two media. This can be ascribed to the fact that, during water molecule penetration (0.3 < P < 3 GPa), the effect of the P-transmitting medium is directed to compress the system as well as to penetrate the channels.
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