Point defects and non-stoichiometry in thoria

• Calculation of fully converged defect formation energies in ThO2 using DFT
• Description of the defect chemistry of ThO2 across a range of experimental conditions
• Identification of the role of dopants/impurities on the defect chemistry of ThO2

Thoria is a possible alternative to urania as a nuclear fuel. In order to adopt thoria it is necessary to gain a thorough understanding of the defect processes that control its macroscopic properties. Here we perform density functional theory simulations coupled with chemical potentials calculated using simple thermodynamics, to explore the defect chemistry in ThO2 over a wide range of temperatures and oxygen partial pressures. The results predict the hypostoichiometric, ThO2 − x, regime to be characterised by VO2 + defects charge compensated by conduction band electrons. The simulations also highlight the importance of the poroxo-oxygen interstitial defect, which is predicted to form with a significantly higher concentration than octahedral oxygen interstitial defects under hyperstoichiometric, ThO2 + x, conditions. Despite this thoria is not expected to accommodate a significant oxygen excess, which agrees with experimental observations.