Preparation and Dielectric Studies of BiFe1-x+yBaxCoy¬O3 (x, y = 0.1, 0.2, 0.3, 0.4) Nanoceramic Samples Using Solution Combustion Method

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Yogesh A. Chaudhari

Preparation and Dielectric Studies of BiFe1-x+yBaxCoy¬O3 (x, y = 0.1, 0.2, 0.3, 0.4) Nanoceramic Samples Using Solution Combustion Method

Authors: Yogesh A. Chaudhari

Unique Paper ID: 183713
Volume: 12
Issue: 3
PageNo: 2898-2901

Keywords: This paper presents the formulation of Ba and Co doping at Fe site in the BiFeO3 ceramics such as BiFe0.8Ba0.1Co0.1¬O3 BiFe0.6Ba0.2Co0.2¬O3 BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 samples by using solution combustion method. These ceramic samples BiFe0.8Ba0.1Co0.1¬O3BiFe0.6Ba0.2Co0.2¬O3 BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 were prepared using metal nitrates and glycine fuel as primary resources. These chemically produced powder samples were ground in an acetone medium calcined in a furnace at various temperatures and then pelletized. The dielectric constant as a function of temperature studies were carried out at 1 kHz 3 kHz and 5kHz frequencies for the BiFe0.8Ba0.1Co0.1¬O3 BiFe0.6Ba0.2Co0.2¬O3 BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 ceramics

Abstract:
This paper presents the formulation of Ba and Co doping at Fe site in the BiFeO3 ceramics such as BiFe0.8Ba0.1Co0.1¬O3, BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 samples by using solution combustion method. These ceramic samples BiFe0.8Ba0.1Co0.1¬O3BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 were prepared using metal nitrates and glycine fuel as primary resources. These chemically produced powder samples were ground in an acetone medium, calcined in a furnace at various temperatures, and then pelletized. The dielectric constant as a function of temperature studies were carried out at 1 kHz, 3 kHz and 5kHz frequencies for the BiFe0.8Ba0.1Co0.1¬O3, BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 ceramics

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Copyright © 2025 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{183713,
        author = {Yogesh A. Chaudhari},
        title = {Preparation and Dielectric Studies of BiFe1-x+yBaxCoy¬O3 (x, y = 0.1, 0.2, 0.3, 0.4) Nanoceramic Samples Using Solution Combustion Method},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {12},
        number = {3},
        pages = {2898-2901},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=183713},
        abstract = {This paper presents the formulation of Ba and Co doping at Fe site in the BiFeO3 ceramics such as BiFe0.8Ba0.1Co0.1¬O3, BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 samples by using solution combustion method.   These ceramic samples BiFe0.8Ba0.1Co0.1¬O3BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 were prepared using metal nitrates and glycine fuel as primary resources. These chemically produced powder samples were ground in an acetone medium, calcined in a furnace at various temperatures, and then pelletized. The dielectric constant as a function of temperature studies were carried out at 1 kHz, 3 kHz and 5kHz frequencies for the BiFe0.8Ba0.1Co0.1¬O3, BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 ceramics},
        keywords = {This paper presents the formulation of Ba and Co doping at Fe site in the BiFeO3 ceramics such as BiFe0.8Ba0.1Co0.1¬O3, BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 samples by using solution combustion method.   These ceramic samples BiFe0.8Ba0.1Co0.1¬O3BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 were prepared using metal nitrates and glycine fuel as primary resources. These chemically produced powder samples were ground in an acetone medium, calcined in a furnace at various temperatures, and then pelletized. The dielectric constant as a function of temperature studies were carried out at 1 kHz, 3 kHz and 5kHz frequencies for the BiFe0.8Ba0.1Co0.1¬O3, BiFe0.6Ba0.2Co0.2¬O3, BiFe0.4Ba0.3Co0.3¬O3 and BiFe0.2Ba0.4Co0.4¬O3 ceramics},
        month = {August},
        }

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Cite This Article

ISSN: 2349-6002
Volume: 12
Issue: 3
PageNo: 2898-2901

Preparation and Dielectric Studies of BiFe1-x+yBaxCoy¬O3 (x, y = 0.1, 0.2, 0.3, 0.4) Nanoceramic Samples Using Solution Combustion Method

Available:https://ijirt.org/article?manuscript=183713

04 Apr, 2024

Dielectric response of Zn incorported BiFeO3 samples formulated using solution combustion method at optimised conditions

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