Enhanced electrocaloric effect, energy storage density and pyroelectric response from a domain-engineered lead-free BaTi<sub>0.91</sub>Sn<sub>0.08</sub>Zr<sub>0.01</sub>O<sub>3</sub> ferroelectric ceramic - Concepedia

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Enhanced electrocaloric effect, energy storage density and pyroelectric response from a domain-engineered lead-free BaTi<sub>0.91</sub>Sn<sub>0.08</sub>Zr<sub>0.01</sub>O<sub>3</sub> ferroelectric ceramic

DOI Full Paper Access

15

Citations

86

References

2022

Year

Hend Kacem, Ah. Dhahri, Fatma Aouaini, Z. Sassi, L. Seveyrat, Laurent Lebrun, J. Dhahri

Energy Storage DensityEngineeringEnergy EfficiencyEnergy ConversionFunctional CeramicElectrothermalThermoelectricsThermal Energy StorageElectrical PropertiesChemical EngineeringFerroelectric ApplicationPyroelectric EnergyThermodynamicsPiezoelectric MaterialP–e Hysteresis LoopsMaterials ScienceElectrical EngineeringEnergy HarvestingEnhanced Electrocaloric EffectEnergy StoragePyroelectricityElectrochemistryPyroelectric ResponseEnergy CeramicApplied PhysicsFerroelectric MaterialsElectric FieldsFunctional Materials

Abstract

The temperature-dependent of (a) P–E hysteresis loops and (b) ΔT at different applied electric fields. (c) The pyroelectric energy harvesting density per cycle. (d) The relevant energy storage parameters of BTSZ ceramic as a function of temperature.

References

	Year	Citations

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