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From insulator to oxide-ion conductor by a synergistic effect from defect chemistry and microstructure: acceptor-doped Bi-excess sodium bismuth titanate Na<sub>0.5</sub>Bi<sub>0.51</sub>TiO<sub>3.015</sub>
47
Citations
27
References
2020
Year
Materials ScienceOxide HeterostructuresSynergistic EffectSolid-state IonicEngineeringCrystalline DefectsAcceptor-type DopantsOxide ElectronicsOxide SemiconductorsApplied PhysicsOxide-ion ConductivityIonic ConductorSolid-state ChemistryDefect ChemistryCeramic MicrostructureDefect FormationOxide-ion Conductor
Low levels of acceptor-type dopants can introduce appreciable levels of oxide-ion conductivity into NB<sub>0.51</sub>T due to a synergistic effect from defect chemistry and ceramic microstructure.
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