Transition in temperature scaling behaviors and super temperature stable polarization in BiScO3–PbZrO3–PbTiO3 system

Abstract

AbstractTemperature scaling of dynamic ferroelectric hysteresis for the morphotropic phase boundary (MPB) compositions in xBiScO3–(1‐x‐y)PbZrO3–yPbTiO3 (xBS–(1‐x‐y)PZ–yPT, 0.018 ≤ x ≤ 0.264) ternary system was systematically investigated. The power‐law relation was obtained for remanent polarization Pr and temperature T, that is, Pr ∝ Tβ. It is interesting to find that the power‐law exponent β could be modulated by BiScO3 content x. With the increase of x from 0.018 to 0.264, β varies from −1.09398 to 2.44147. Transition of β from negative to positive produces in the vicinity of 0.054BS–0.476PZ–0.470PT ceramic. At this composition, the magnitude of β is very close to zero with value of only −0.01567, implying an almost temperature‐independent polarization characteristic of the ceramic. Comparing with the conventional PZT‐based piezoelectric ceramics that usually with negative exponent β, when x > 0.054, the xBS–(1‐x‐y)PZ–yPT ceramics show positive β value, so that the ferroelectric polarization is enhanced with increasing temperature. Such a positive temperature dependence of ferro‐/piezoelectric property makes the ternary system a promising candidate for high‐temperature applications.