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Enhancing the Temperature Stability of 0.42PNN-0.21PZ-0.37PT Ceramics through Texture Engineering

Lang Bian, Qiangwei Kou, Linjing Liu, Huashan Zheng, Nan Wang, Xudong Qi, Bin Yang, Wenwu Cao

2022ACS Applied Materials & Interfaces39 citationsDOI

Abstract

Although the MPB composition 0.42PNN-0.21PZ-0.37PT ceramic has high piezoelectric properties, its temperature stability at room temperature is rather poor due to the low phase-transition temperature. By texture engineering using BaTiO3 (BT) as the template, the temperature stability of this material can be greatly improved. In the temperature range from room temperature up to 140 °C, the high effective piezoelectric strain constant d33* of 0.42PNN-0.21PZ-0.37PT-3BT only changed by 4.9% from 1278 to 1215 pm/V, while the d33* of the nontextured counterpart changed by 46.7% from the room temperature value of 920 pm/V with the maximum deviation to 1350 pm/V at 80 °C. In addition, the textured ceramic has higher piezoelectric properties, lower dielectric loss, and slightly higher coercive field. The room-temperature figure-of-merit d33 × g33 for PNN-PZT-2BT is increased by as much as 42% compared with the nontextured counterpart. Our results demonstrated that texture engineering is an effective way to improve the temperature stability of the MPB composition piezoceramics.

Topics & Concepts

Materials scienceCeramicPiezoelectricityTexture (cosmology)DielectricFigure of meritAtmospheric temperature rangeComposite materialCoercivityThermodynamicsOptoelectronicsCondensed matter physicsComputer sciencePhysicsImage (mathematics)Artificial intelligenceFerroelectric and Piezoelectric MaterialsMultiferroics and related materialsAcoustic Wave Resonator Technologies