Pj. Mead et Mt. Weller, SYNTHESIS, STRUCTURE, AND CHARACTERIZATION OF HALATE SODALITES - M(8)[ALSIO4](6)(XO(3))(X)(OH)(2-X) M=NA, LI, OR K, X=CL, BR, OR I, Zeolites, 15(6), 1995, pp. 561-568
The halate sodalites of the compositions Na-8[AlSiO4](6)(ClO3)(1.91)(O
H)(0.09) and Na-8[AlSiO4](6)(BrO3)(1.77)(OH)(0.23) have been prepared
using low-temperature solution syntheses and the derivatives Na4.7Li3.
3[AlSiO4](6)(ClO3)(1.91)(OH)(0.09), )(0.09)Na3.3Li4.7[AlSiO4](6)(BrO3)
(1.77)(OH)(0.23) and Na3.3K4.7[AlSiO4](6)(BrO3)(1.77)(OH)(0.23) obtain
ed by aqueous cation exchange. All products crystallize with the cubic
sodalite structure in the space group P43n. Rietveld profile refineme
nt has been completed from powder neutron diffraction data collected a
t 4 and 300 K revealing a structure similar to that found for perchlor
ate sodalite, with the anion positioned slightly off the cage center.
Infrared and Raman spectroscopy has verified the presence of the halat
e anions within the beta-cage, and Si-29 MAS n.m.r. has confirmed that
the framework ordering is consistent with the space group. Thermograv
imetric analyses have provided information on the extent of halate ent
rapment, stability within the cage, and decomposition properties.