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Defect Engineering with Rational Dopants Modulation for High-Temperature Energy Harvesting in Lead-Free Piezoceramics

Kaibiao Xi, Jianzhe Guo, Mupeng Zheng, Mankang Zhu, Yudong Hou

2024Nano-Micro Letters23 citationsDOIOpen Access PDF

Abstract

Abstract High temperature piezoelectric energy harvester (HT-PEH) is an important solution to replace chemical battery to achieve independent power supply of HT wireless sensors. However, simultaneously excellent performances, including high figure of merit (FOM), insulation resistivity ( ρ ) and depolarization temperature ( T d ) are indispensable but hard to achieve in lead-free piezoceramics, especially operating at 250 °C has not been reported before. Herein, well-balanced performances are achieved in BiFeO 3 –BaTiO 3 ceramics via innovative defect engineering with respect to delicate manganese doping. Due to the synergistic effect of enhancing electrostrictive coefficient by polarization configuration optimization, regulating iron ion oxidation state by high valence manganese ion and stabilizing domain orientation by defect dipole, comprehensive excellent electrical performances ( T d = 340 °C, ρ 250 °C > 10 7 Ω cm and FOM 250 °C = 4905 × 10 –15 m 2 N −1 ) are realized at the solid solubility limit of manganese ions. The HT-PEHs assembled using the rationally designed piezoceramic can allow for fast charging of commercial electrolytic capacitor at 250 °C with high energy conversion efficiency ( η = 11.43%). These characteristics demonstrate that defect engineering tailored BF-BT can satisfy high-end HT-PEHs requirements, paving a new way in developing self-powered wireless sensors working in HT environments.

Topics & Concepts

Materials scienceElectrostrictionManganesePiezoelectricityOptoelectronicsCeramicIonDopantFigure of meritDopingEnergy harvestingElectrical engineeringEngineering physicsComposite materialPower (physics)ChemistryEngineeringMetallurgyPhysicsOrganic chemistryQuantum mechanicsFerroelectric and Piezoelectric MaterialsInnovative Energy Harvesting TechnologiesAdvanced Sensor and Energy Harvesting Materials