High-Temperature Intrinsic Defect Chemistry of Li₈PbO₆ Ceramic Breeding Material

Davies, Andrew W. and Neilson, William D. and Bedford, Reece T. and Murphy, Samuel T. (2023) High-Temperature Intrinsic Defect Chemistry of Li₈PbO₆ Ceramic Breeding Material. The Journal of Physical Chemistry C, 127 (45). pp. 22265-22276. ISSN 1932-7447

Abstract

Understanding the intrinsic defect chemistry of tritium breeder materials proposed for use in future fusion reactors is imperative, as certain defects may act as traps leading to retention of tritium in the ceramic matrix. In this paper, we use combined density functional theory simulations with simple thermodynamics to explore the intrinsic defect chemistry of octalithium plumbate (Li8PbO6) as a function of both temperature and oxygen partial pressure. Importantly, we consider vibrational contributions to the energies of the reference states used in the calculations of the defect formation energies. Our results indicate that including these temperature effects can modify the predicted defect chemistry for materials at a high temperature. For Li8PbO6, the defect chemistry is predicted to be dominated by the VLi–1 defect, which will likely act as a trap for tritium. The charge compensating mechanism is predicted to change as a function of the conditions, with the Lii+1 interstitial defect providing compensation at low temperatures and the VO2+ vacancy defect occurring close to the Li2O saturation limit.