Scientific Reports (Mar 2024)
The role of local non-tetragonal polar displacements in the temperature- and pressure-induced phase transitions in PbTiO3-BiMeO3 ferroelectrics
Abstract
Abstract In situ high-pressure/high-temperature Raman-scattering analyses on PbTiO $$_3$$ 3 , 0.92PbTiO $$_3-$$ 3 - 0.08Bi(Zn $$_{0.5}$$ 0.5 Ti $$_{0.5}$$ 0.5 )O $$_3$$ 3 and 0.83PbTiO $$_3-$$ 3 - 0.17Bi(Mg $$_{0.5}$$ 0.5 Ti $$_{0.5}$$ 0.5 )O $$_3$$ 3 single crystals reveal an intensity transfer between the fine-structure components of the A $$_1$$ 1 (TO) soft mode. The enhancement of the lowest-energy subpeak, which stems from intrinsic local non-tetragonal polar distortions, along with the suppression of the tetragonal A $$_1$$ 1 (1TO) fundamental mode with increasing pressure and temperature indicates the key role of the local polarization fluctuations in transformation processes and emphasizes the significance of the order-disorder phenomena in both the pressure- and temperature-induced phase transitions of pure PbTiO $$_3$$ 3 and its solid solutions with complex perovskites. Moreover, the temperature and pressure evolution of the fraction of the local non-tetragonal polar distortions is highly sensitive to the type of B-site substituent.
