分压
铁电性
溶解度
电介质
材料科学
相(物质)
相变
氧气
热力学
空位缺陷
溶解
分析化学(期刊)
化学
物理化学
结晶学
有机化学
光电子学
物理
作者
Soonil Lee,Clive A. Randall,Zi‐Kui Liu
标识
DOI:10.1111/j.1551-2916.2008.02372.x
摘要
Defect and phase equilibria have been investigated through the ferroelectric phase transition behavior of pure and equilibrated nonstoichiometric BaTiO 3 powders. The paraelectric–ferroelectric phase transition temperature ( T C – T ) was found to vary systematically with materials fabricated with different Ba/Ti ratio ( g * ) and under various oxygen partial pressure ( ) conditions. 1 The solubility regime, as determined through the T C – T variation, decreased with decreasing . 2 Determining the solubility limits and equilibrating the defect reactions at the solubility limits provide a direct approach to calculate the defect formation energies and provide data to test a new defect model for concurrent defect reactions of partial Schottky and reduction defects. A refined approach introduces a balanced equilibrium between the oxygen vacancy concentrations controlled by the partial Schottky and reduction reactions. In the limiting ambient cases the approach gives the expected results, and also fully explains the solubility trends under low 's. Universally, the theory supports all the experimental data over different temperatures and 's.
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