Abstract
Admittance measurements have been carried out as a function of temperature (20/-20°C) and relative humidity (5–90%) on pellets made up of pressed sheets of hydrated α-zirconium phosphate (pellicular zirconium phosphate). Their dc conductivities have been calculated on the basis of a suitable equivalent circuit using a nonlinear least squares procedure: at 20°C and 90% relative humidity they lie in the range 3-0.9×10 -4 S cm -1 when the sheets are oriented parallel to the electric field and are about seven times lower in the case of perpendicular orientation. Changes in relative humidity from 90 to 5% cause the conductivity to decrease by two orders of magnitude and the activation energy to rise from 6.7 to 12.2 kcal/mol. A comparison of the Arrhenius equation parameters with those previously determined for polycrystalline α-Zr(HPO 4) 2·H 2O reveals that the same transport mechanism is present in both materials, the higher conductivity of pellicular zirconium phosphate arising from a larger effective number of carriers.
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