| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1298338 | Solid State Ionics | 2011 | 6 Pages |
We examine the space charge layer formation at metal/ionic conductor interfaces by solving Poisson's equation using defect energetics calculated from first principles. The scheme is applied to zirconia, and we find that oxidizing atmosphere and high valence band offset result in negative space charge accumulation at the interface, while reducing atmosphere and low valence band offset result in positive charge accumulation. This is explained in terms of the alignment of the Fermi levels in the metal and the ionic conductor.
Research Highlights► Space charge is formed to align the Fermi level at metal/ionic conductor interfaces. ► Fermi level alignment depends on the band offset and the atmospheric conditions. ► The ionic conductivity can be improved by tuning the Fermi level alignment. ► Space charge formation causes Fermi level pinning in metal/high-k gate stacks.
