Ferroelectricity in oxyfluoride Aurivillius phase Bi2TiO4F2 from first-principles

Abstract

Using first-principle calculations, we restrained the m=1 oxyfluoride Aurivillius Bi2TiO4F2 to adopt three ordered key configurations, such as tetragonal I4/mmm phases with fluorine anions distributed either at the octahedral apical sites or at the octahedral equatorial ones and orthorhombic Pma2 phase with fluorine anions distributed over both apical and equatorial sites. We explored the energetics of the metastable phases and their potential for ferroelectricity and found that the least favorable configuration is equatorial sites for fluorine and the most favorable one is the mixture between apical and equatorial sites for fluorine. Phonon calculations performed in the tetragonal I4/mmm with fluorine at the apical sites showed a strong c-axis polar instability 3- that co-exists with the ab-plane polar instability 5-, commonly found in Aurivillius oxide phases. These two polar instabilities lead to Pc phase that displays in-plane and out-of-plane spontaneous polarizations as large as 44 μc/cm2 and 35 μc/cm2, respectively, opening new prospective design in thin films Aurivillius FeRAM devices.