Polarization-induced phase structure transition and change of photoluminescence in Er3+-doped (Ba, Ca)(Ti, Sn)O3-based multifunctional ceramics

“…It is well known that the R and T phase exhibits higher symmetry compared to the O phase. The above results indicate that poling treatment causes the phase transition of the ceramic, which reduces the overall lattice symmetry inside the ceramic 23,24 . Under external electric field stimulation, the ferroelectric domains inside the ceramic begin to flip.…”

“…The above results indicate that poling treatment causes the phase transition of the ceramic, which reduces the overall lattice symmetry inside the ceramic. 23,24 Under external electric field stimulation, the ferroelectric domains inside the ceramic begin to flip. When the low symmetry orthogonal phase increases, the anisotropy of the ceramic lattice structure is enhanced, the energy required for ferroelectric domain flipping tends to flatten, and the polarity of dipoles is enhanced.…”

Poling‐induced enhancement of piezocatalytic performance of 0.96K_0.5Na_0.5NbO₃‐0.04Bi_0.5Na_0.5ZrO₃ ceramic blocks

“…It is well known that the R and T phase exhibits higher symmetry compared to the O phase. The above results indicate that poling treatment causes the phase transition of the ceramic, which reduces the overall lattice symmetry inside the ceramic 23,24 . Under external electric field stimulation, the ferroelectric domains inside the ceramic begin to flip.…”

“…The above results indicate that poling treatment causes the phase transition of the ceramic, which reduces the overall lattice symmetry inside the ceramic. 23,24 Under external electric field stimulation, the ferroelectric domains inside the ceramic begin to flip. When the low symmetry orthogonal phase increases, the anisotropy of the ceramic lattice structure is enhanced, the energy required for ferroelectric domain flipping tends to flatten, and the polarity of dipoles is enhanced.…”

Poling‐induced enhancement of piezocatalytic performance of 0.96K_0.5Na_0.5NbO₃‐0.04Bi_0.5Na_0.5ZrO₃ ceramic blocks

“…However, the toxicity of lead can cause environmental and human health problems, thus lead-free piezoceramics have been widely studied by researchers [3][4][5][6][7]. Especially, barium calcium zirconate titanate (BCZT) is widely used to replace PZT in actuators, sensors, and transducers due to its excellent piezoelectric properties, and can be doped with other materials to obtain better performance [8][9][10][11][12].…”

Electroelastic Coupled-Wave Scattering and Dynamic Stress Concentration of Triangular Defect Piezoceramics

Polarization-induced photoluminescence variation in Pr3+- doped (Ba, Ca)(Ti, Sn)O3 ferroelectric ceramics