An anhydrous single crystal of sodium zeolite X,
Na92Si100Al92O384,
was exposed for 48 h to Na vapor at 225
°C. Its structure was determined by X-ray diffraction methods in
the cubic space group Fd3̄; a =
25.100(11)
Å at 22 °C; R
1 = 0.071 and
R
2 = 0.088 for the 544 reflections for which
I > 3σ(I). A total of 106
sodiums
are found per unit cell, 14 more than the number of Na+
ions required to balance the negative charge of the
zeolite framework. The same number, 14, of Na atoms are found at
the very centers of 12-oxygen rings, far
from the zeolite framework. It appears that each Na atom has been
captured by a pair of Na+ ions to form
linear Na3
2+ clusters that nearly fill the
12-oxygen rings. Each terminal sodium approaches two oxygens
of
an AlO4 tetrahedron of the zeolite framework with Na−O
distances of 2.33(3) and 2.83(4) Å.
Although
some delocalization of the single valence electron over this cluster
must occur, it is recognized, from the
sodium approach distances to framework oxygens, that the terminal
sodiums are largely cationic and the
central sodium is closer to neutral. The bond lengths in the
cluster are 2.93(3) Å, about the same as the
corresponding distance in Na5
4+, 2.80(2)
Å, and the sum of the radii of Na0 and Na+,
2.83 Å.
Crystal Structure of a Sodium Sorption Complex of Zeolite X Containing Linear Na 2+ 3 Clusters.-Single crystals of dehydrated Na-zeolite X, Na 92 Si 12 Al 92 O 384 are exposed for 4 h to Na vapor at 225 • C. Structure determination of the sorption product (cubic, Fdr3r) by single-crystal XRD methods shows the formation of linear Na 2+ 3 clusters at the centers of 12-oxygen rings in the zeolite framework by capturing of each Na atom by a pair of Na + ions. The unit cell contains 106 Na atoms, 14 more than required to balance the charge of the anionic framework. -(SHIBATA, W.; SEFF, K.; J. Phys. Chem. B 101 (1997) 44, 9022-9026; Dep. Chem., Univ. Hawaii, Honolulu, HI 96822, USA; EN)
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