S. Bruque et al., SYNTHESIS OPTIMIZATION AND CRYSTAL-STRUCTURES OF LAYERED METAL(IV) HYDROGEN PHOSPHATES, ALPHA-M(HPO4)2-CENTER-DOT-H2O (M=TI,SN,PB), Inorganic chemistry, 34(4), 1995, pp. 893-899
The syntheses of three layered metal(IV) hydrogen phosphates with form
ula alpha-M(HPO4)(2).H2O (M = Ti, Sn, Pb) have been optimized to yield
single phases of highly crystalline materials. The crystal structures
of these compounds have been studied using X-ray powder diffraction d
ata by the Rietveld method. These three hydrogen phosphates are isomor
phous and belong to the alpha-Zr(HPO4)(2).H2O structure type. The unit
cell parameters are as follows: M = Ti, a = 8.6403(2) Angstrom, b = 5
.0093(1) Angstrom, c = 15.5097(4) Angstrom, beta = 101.324(2)degrees,
space group P2(1)/n; M = Sn, a = 8.6115(3) Angstrom, b = 4.9643(5) Ang
strom, c = 15.861(2) Angstrom, beta = 100.003(1)degrees, space group C
2/c; M = Pb, a = 8.6238(4) Angstrom, b = 4.9870(2) Angstrom, c = 16.12
50(6) Angstrom, beta = 100.615(3)degrees, space group P2(1)/n. The agr
eement factors obtained by Rietveld refinements, R(WP), ranged between
12.5 and 9%. Although the prototype of this series is alpha-ZrP, here
we report that the volume of the unit cell of this compound is marked
ly larger than the volumes of the other studied members of the series.
This is due to the presence of less corrugated layers in alpha-ZrP. I
R and thermal studies of M(HPO4)(2).H2O (M = Ti, Sn, Zr, Pb) indicate
the existence of a trend in the strength of the H-bonds that retain th
e hydration water in the interlayer region.