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Effect of substitution on the structural, electrical properties, and dielectric relaxor behavior in lead-free BiFeO <sub>3</sub> -based ceramics

Ibtissem Ragbaoui, Samia Aydi, Souad Chkoundali, Marwa Enneffati, Abdelhedi Aydi

2024RSC Advances13 citationsDOIOpen Access PDF

Abstract

occurred within this material. In this respect, a suitable equivalent electrical circuit was invested to assess the contributions of grains and grain boundaries to the complex impedance results. Electrical conductivity was attributed to the correlated barrier hopping (CBH) motion of the oxygen vacancies in the sample. The temperature dependence of the dielectric constants revealed the presence of a phase transition. The local disorder provides a dependence of the real part of the permittivity on the frequency which characterizes a relaxor ferroelectric-type behavior of a lead-free material. The modified Curie-Weiss law, in addition to the Vogel Fulcher and Debye law relationships, was utilized to analyze the diffuse transition phase. Furthermore, the studied compound displayed promising electrical properties and chemical stability and proved to be a good relaxor. In this regard, a correlation between dielectric and electric behavior near the ferro-paraelectric phase transition was established.

Topics & Concepts

Substitution (logic)DielectricMaterials scienceCeramicLead (geology)Condensed matter physicsComposite materialOptoelectronicsPhysicsComputer scienceProgramming languageGeologyGeomorphologyMultiferroics and related materialsFerroelectric and Piezoelectric MaterialsDielectric properties of ceramics
Effect of substitution on the structural, electrical properties, and dielectric relaxor behavior in lead-free BiFeO <sub>3</sub> -based ceramics | Litcius