Physics – Condensed Matter – Materials Science
Scientific paper
2010-09-28
Physics
Condensed Matter
Materials Science
20 pages, 5 figures, 2 tables
Scientific paper
Zirconia (ZrO2) is an important material with technological applications which are affected by point defect physics. Ab-initio calculations are performed to understand the structural and electronic properties of oxygen vacancies and interstitials in different charge states in cubic zirconia. We find oxygen interstitials in cubic ZrO2 can have five different configurations - <110> dumbbell, <100> dumbbell, <100> crowd-ion, octahedral, and <111> distorted dumbbell. For a neutral and singly charged oxygen interstitial, the lowest energy configuration is the <110> dumbbell, while for a doubly charged oxygen interstitial the octahedral site is energetically the most favorable. Both the oxygen interstitial and the oxygen vacancy are negative-U, so that the singly charged defects are unstable at any Fermi level. The thermodynamic stability of these defects are studied in terms of Fermi level, oxygen partial pressure and temperature. A method to determine the chemical potential of the system as a function of temperature and pressure is proposed.
Lenosky Thomas
Li Ju
Samanta Amit
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