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Structure, ferroelectric, magnetic, and energy storage performances of lead-free Bi4Ti2.75(FeNb)0.125O12 Aurivillius ceramic by doping Fe3+ ions extracted from Padang beach sand

Tio Putra Wendari, Alfir Rizki, Zulhadjri Zulhadjri, Yulia Eka Putri, Emriadi, Arniati Labanni, Andon Insani, Agus Rimus Liandi

2024Case Studies in Chemical and Environmental Engineering12 citationsDOIOpen Access PDF

Abstract

This work successfully synthesized single-phase Aurivillius Bi4Ti2.75(FeNb)0.125O12 using a molten salt method and the natural precursor of Fe3+ ions extracted from Padang Beach sand. The study extensively examined the phase formation, crystal structure, grain morphology, and physical properties. X-ray diffraction (XRD) analysis combined with the Rietveld refinement technique confirms that Bi4Ti2.75(FeNb)0.125O12 adopts a B2cb orthorhombic structure. The refined atomic positions reveal that Bi3+ ions are located in the A-site within both the bismuth and perovskite layers, while the B-sites within the perovskite layers are primarily occupied by Ti4+/Nb5+/Fe3+ ions. The lower distortion of the inner B(1)O6 octahedra suggests the preference of Fe-rich clusters. The magnetization hysteresis suggests that the Bi4Ti2.75(FeNb)0.125O12 phase exhibits a weak antiferromagnetic state arising from the local short-range Fe–O–Fe antiferromagnetic ordering in the inner B(1)O6 octahedra. The electrical measurements reveal that the existence of ferroelectric ordering at room temperature comes from the structural distortion and the off-center ionic displacement. The energy storage capacity of 10.15 mJ/cm3 and efficiency (η) of 50.2% were obtained in ceramic sample under an electric field of 70 kV/cm at room temperature.

Topics & Concepts

AurivilliusMaterials scienceAntiferromagnetismFerroelectricityOrthorhombic crystal systemOctahedronRietveld refinementCrystallographyIonPerovskite (structure)Crystal structurePhase (matter)MineralogyCondensed matter physicsChemistryDielectricPhysicsOptoelectronicsOrganic chemistryMultiferroics and related materialsFerroelectric and Piezoelectric MaterialsDielectric properties of ceramics
Structure, ferroelectric, magnetic, and energy storage performances of lead-free Bi4Ti2.75(FeNb)0.125O12 Aurivillius ceramic by doping Fe3+ ions extracted from Padang beach sand | Litcius