161 / 2022-02-12 12:43:25

Multiphase Engineered Bi1/2Na1/2TiO3-based Ceramics with Simultaneous High Polarization and Superior Breakdown Strength for Energy Storage Applications

multiphase engineering,energy storage,high polarization,high breakdown strength,temperature stability

（7）矿物与先进能源材料 > 8. 新型能源材料

Dielectric ceramics are crucial for high-temperature, pulse-power energy-storage applications. However, the mutual restriction between the polarization and breakdown strength has been a significant challenge. Here, multiphase engineering controlled by the two-step sintering heating rate is adopted to simultaneously obtain a high polarization and breakdown strength in 0.8(0.95Bi_0.5Na_0.5TiO₃-0.05SrZrO₃)-0.2NaNbO₃ (BNTSZNN) ceramic systems. The co-existence of tetragonal (T) and rhombohedral (R) phases benefits the temperature stability of BNTSZNN ceramics. Increasing the heating rate during sintering reduces the diffusion of SrZrO₃ and NaNbO₃ into Bi_0.5Na_0.5TiO₃, which results in a high proportion of the R phase and a finer grain size. The overall polarization is enhanced by increasing the proportion of the high-polarization R phase, which is demonstrated using a first-principles method. Meanwhile, the finer grain size enhances the breakdown strength. Following this design philosophy, an ultrahigh discharge energy density of 5.55 J/cm³ and energy efficiency above 85% is achieved in BNTSZNN ceramics as prepared with a fast heating rate of 60 ℃/min given a simultaneously high polarization of 43 μC/cm² and high breakdown strength of 350 kV/cm. Variations in the discharge energy density from room temperature to 160 ℃ are less than 10%. Additionally, such BNTSZNN ceramics exhibit an ultrafast discharge speed with the discharge time (τ_0.9) at approximately 60 ns, which shows the great potential in pulse-power system applications.