3.13.4 Conductivity in SrTiO3
Perovskite oxides SrTiO3 and BaTiO3 have two cation sub-lattices onto which aliovalent ions can substitute. These oxides can also be easily reduced in reducing atmospheres leading creation of mobile defects. Typically, Ba/Ti or Sr/Ti is approximately very close to 1. Maximum deviation occurs at temperatures lower than 1200°C and is of the order of ∼100ppm.
To promote n-type conductivity in these materials, solutes such La3+, Nb5+, and Ta5+ are added to BaTiO3, giving rise to shallow donor levels in the bandgap. The defect reaction upon doping with La or Nb is expressed as
and
Occupancies are determined by the relative atomic sizes.
On the other hand, undoped materials often contain impurities such as Fe3+ or Al 3+ substituting Ti4+ acting as acceptors. Consider lightly acceptor doped SrTiO3 with Al2O3 as impurity with the following defect reaction:
In such a situation, either SrO is accepted or TiO2 is rejected to maintain the stoichiometric cation ratio.
The above equation is ionically compensated reaction. It follows that [AlTi'] = 2[V0•] and thus
Electronic compensation is also possible according to
It follows that [AlTi'] = nh and thus
Experiments show that Equation (3) , i.e. ionic compensation is predominant mechanism.
If you are interested, you can refer to the work of Choi and Tuller, Journal of American Ceramic Society, 71, 201, 1988 for discussion on defects and conduction in Ba-doped SrTiO3 under various conditions.
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