Extraordinary energy storage performance and thermal stability in sodium niobate-based ceramics modified by the ion disorder and stabilized antiferroelectric orthorhombic R phase - Concepedia

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Extraordinary energy storage performance and thermal stability in sodium niobate-based ceramics modified by the ion disorder and stabilized antiferroelectric orthorhombic R phase

59

Citations

68

References

2021

Year

Ruirui Kang, Zepeng Wang, Weijie Yang, Xiaopei Zhu, Peng Shi, Yangfei Gao, Pu Mao, Jiantuo Zhao, Lixue Zhang, Xiaojie Lou

Journal of Materials Chemistry A

EngineeringEnergy EfficiencyFunctional CeramicThermal Energy StorageChemistryElectrical PropertiesEnergy Storage MaterialsChemical EngineeringEnergy Storage DeviceThermal StabilityMaterials ScienceCrystalline CeramicsStructure–property RelationshipCeramic MaterialEnergy StorageEnergy Storage SystemEnergy EngineeringEnergyStructural CeramicSodium Niobate-based CeramicsChemical Modification MethodEnergy CeramicApplied PhysicsIon DisorderThermal Properties

Abstract

Adopting the chemical modification method to modulate scales to achieve excellent energy storage performance according to the structure–property relationship.

References

	Year	Citations

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