P. Han et Wl. Worrell, MIXED (OXYGEN-ION AND P-TYPE) CONDUCTIVITY IN YTTRIA-STABILIZED ZIRCONIA CONTAINING TERBIA, Journal of the Electrochemical Society, 142(12), 1995, pp. 4235-4246
Terbia (TbO1.75 or Tb4O7) has been dissolved into yttria [10 and 8 mol
e percent (m/o)] stabilized zirconia (Y10SZ and Y8SZ) to form mixed co
nducting yttria-stabilized zirconia-terbia (Y10ZTb and Y8ZTb) solid so
lutions, with terbia (TbO1.75) concentrations as high as 50 m/o. The t
otal electrical conductivity between 300 and 800 degrees C in 1 atm ox
ygen, air, and 10(-5) atm P-O2 has been determined from impedance spec
troscopy measurements. Electromotive force cell and oxygen ion blockin
g electrode techniques have been used to determine oxygen ion transfer
ence numbers and p-type conductivities in air and 1 atm P-O2 at temper
atures between 600 and 833 degrees C. The oxygen-ion conductivity is m
ore predominant in Y10ZTb and Y8ZTb containing 20 m/o terbia (TbO1.75)
in air at temperatures >650 degrees C, whereas the p-type electronic
conductivity is more predominant in Y10ZTb and Y8ZTb containing 30 m/o
terbia. The calculated oxygen ion and electron hole mobilities of Y8Z
Tb30 at 800 degrees C in air are 7.8 X 10(-7) cm(2)/V s and 2.8 X 10(-
5) cm(2)/V s, respectively. The activation energies and the calculated
electron hole mobility for p-type conductivity support a small polaro
n mechanism in these YZTb-mixed conductors.