First-principles study of Microscopic Role of Li in Li-doped BaTiO₃

　　Chul Hong Park 

　　Department of Physics Education, Pusan National University, Pusan 609735, South Korea 

　　^*cpark@pusan.ac.kr 

　　Abstract 

　　In the talk, we discuss the microscopic structure of Li in BaTiO₃-based perovskite and the role of the Li in the piezoelectric properties. The stabilities and the microscopic structures of various Li-driven states in BaTiO₃ and the interaction between Li and defects are discussed based on the first-principles calculations. The calculated results are compared to the experimental measurements of the electrical properties and the structural properties of the(Ba,Ca)(Ti,Zr)O₃:Li[BCTZL-x]. It is suggested that the Li located at Ti site makes the ferroelectric polarization weakened, however, dipolar defects such as(Li_Ti-)^-complex can be formed in the case of the high concentration of Li, which can enhance the ferroelectrics. The experimental data such as the change of the polarization hysteresis loop and the electrical activation energies and the behaviors of the phase transitions induced by the Li-doping are discussed with respect of Li_Ti and (Li_Ti-)^-complex.