| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1297633 | Solid State Ionics | 2011 | 5 Pages |
Because initial reports suggested that the nano-domains found in gadolinia-doped ceria, a material used amongst other things as an electrolyte in solid oxide fuel cells, could have a B-type rare earth oxide structure, atomistic models were developed to incorporate the B-type structure into the host fluorite structure. A one-to-one correspondence was discovered between the cation positions in monoclinic B-type structure and those in the cubic fluorite structure, which allows in principle the incorporated B-type structural element to retain its monoclinic symmetry. Defect energy calculations showed, however, that the incorporation of the gadolinia only becomes favorable when the initial B-type structure was partially converted into the C-type structure, thus suggesting that nano-domains are more likely to adopt a C-type arrangement. The calculations also indicated that oxygen diffusion plays a central role in the B- to C-type phase transition in gadolinia.
Research Highlights►The structural relationship between B-type Gd2O3 and fluorite structured ceria has been identified. ►Oxygen ion mobility was found to play a critical role in the gadolinia B- to C- type Gd2O3 phase transition. ►The nano-domains in GDC are more likely to have an intrinsic cubic structure, such as C-type structure.
