Fabrication of Lead-Free Bismuth Based Electroceramic Compositions for High-Energy Storage Density Applications in Electroceramic Capacitors

Author:

Khan Azam1,Khan Taj Malook23,Wu Jianbo23ORCID,Bilal Hazrat1,Khan Shahan Zeb4,Manan Abdul5,Wang Xiujian1,Gul Noor Shad23

Affiliation:

1. State Key Laboratory for Chemistry and Chemical Engineering of Medicinal Resources, School of Chemistry and Pharmacy, Guangxi Normal University, Guilin 541004, China

2. Drug Discovery Research Center, Southwest Medical University, Luzhou 646000, China

3. Laboratory for Cardiovascular Pharmacology, Department of Pharmacology, The School of Pharmacy, Southwest Medical University, Luzhou 646000, China

4. Department of Chemistry, University of Science and Technology, Bannu 28100, Pakistan

5. Advanced Materials Research Laboratory, Department of Physics, University of Science and Technology, Bannu 28100, Pakistan

Abstract

Lead-based electro-ceramic compositions are excellent energy storage materials used for high-energy storage density applications in dielectric ceramic capacitors. However, these materials have lead contents in their compositions, making them toxic, with a negative impact on human health and the environment. For this reason, we synthesized a lead-free bismuth-based electro-ceramic perovskite, 0.80(0.92Bi1/5Na1/5TiO3-0.08BaTiO3)-0.20(Na0.73Bi0.09NbO3−xTa2O5), abbreviated (BNT-BT-NBN1−xTx), from mixed oxides with doping of tantalum (Ta) at different concentrations, using a conventional solid-state reaction method. The effects of Ta doping on the phase evolution, microstructure development, and energy storage applications were investigated. Detailed powder X-ray diffraction analysis revealed a pure perovskite phase with Ta doping at ≤0.05. Furthermore, it was observed that excessive addition of Ta has been resulted in secondary phase generation. Scanning electron microscopy validated the development of dense microstructures with a reduced grain size for the Ta concentration of ≤0.01. Electrochemical analysis revealed a maximum polarization (Pm) of ~22 µC/cm2 and a recoverable energy density of 1.57 J/cm3 with 80% efficiency for Ta doping at 0.05 with an applied field of 175 kV/cm. These results demonstrate the development of enhanced ferroelectric characteristics in an as-synthesized electro-ceramic perovskite for high-energy storage density applications in electro-ceramic capacitors.

Funder

Drug Discovery Research Center, Southwest Medical University, Luzhou, China,

National Science Foundation of China

Publisher

MDPI AG

Subject

Physical and Theoretical Chemistry,Catalysis,General Environmental Science

Reference56 articles.

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