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Ultrahigh polarization Bi0.5Na0.5TiO3-based relaxor ceramics for force-electric conversion

Yezhan Lin, Hengchang Nie, Meng Xie, Fei Cao, Ping Peng, Genshui Wang

2023Applied Physics Letters12 citationsDOI

Abstract

High polarization of ferroelectric materials has profound research significance and is the decisive factor in the application of energy storage, pyroelectricity, and explosive energy conversion. Herein, in force-electric conversion field, an ultrahigh remanent polarization (51.43 μC/cm2) and record-breaking energy density (4.59 J/cm3) after poling were achieved with a lead-free (1 − x)Bi0.5Na0.5TiO3 − xAgNbO3 [(1 − x)BNT – xAN] relaxor ceramics. The enhancement effect of AgNbO3 on polarization is attributed to the increase in lattice distortion and orientation after poling. Additionally, a significant force-electric conversion effect under hydrostatic pressure (depolarization rate ∼44.8%, 400 MPa) and shock pressure (depolarization rate ∼54.4%, 6.3 GPa) in (1 − x)BNT – xAN was attributed to the pressure-driven ferroelectric/relaxor (FE/RE) phase transition. This work is expected to enlighten the further design of ferroelectric materials with high polarization for pulse power energy conversion application.

Topics & Concepts

Materials scienceFerroelectricityPolingPolarization (electrochemistry)Electric fieldHydrostatic pressureFerroelectric ceramicsCondensed matter physicsDielectricOptoelectronicsThermodynamicsChemistryPhysicsQuantum mechanicsPhysical chemistryFerroelectric and Piezoelectric MaterialsAcoustic Wave Resonator TechnologiesMultiferroics and related materials
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