Multiferroics Made via Chemical Co-Precipitation That Is Synthesized and Characterized as Bi(1−x)CdxFeO3

Syed Zain Mehmood; Mubashar Arshad; Fahad M. Alharbi; Sayed M. Eldin; Ahmed M. Galal

doi:10.3390/inorganics11030134

Multiferroics Made via Chemical Co-Precipitation That Is Synthesized and Characterized as Bi_(1−x)Cd_xFeO₃

Syed Zain Mehmood, Mubashar Arshad, Fahad M. Alharbi, Sayed M. Eldin, Ahmed M. Galal

Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Cd-doped BiFeO₃ powders, with varying doping concentrations of Cd (Bi_(1−x)Cd_xFeO₃, where x = 0–0.3), were prepared through a facile chemical co-precipitation method and calcinated at 550 °C in the air. The BiFeO₃ has a rhombohedral crystal structure, which changes to an orthorhombic crystal structure with an increase in Cd doping. The presence of dopant has also altered the bandgap of material suppressing it from 2.95 eV to 2.51 eV, improving the visible light absorption. Vibrating sample magnetometry (VSM) confirmed stronger ferromagnetic character for Bi_0.7Cd_0.3FeO₃ with a coercivity of 250 Oe, and remnant magnetization was 0.15 emu/g, which is because of the misalignment of the two sublattices of perovskite structure after doping resulting in the imbalanced magnetic moment giving rise to net nonzero magnetic behavior. The particle size reduction is observed with an increase in the doping concentration of Cd.

Original language	English
Article number	134
Journal	Inorganics
Volume	11
Issue number	3
DOIs	https://doi.org/10.3390/inorganics11030134
State	Published - Mar 2023

Keywords

co-precipitation method
doping concentration
magnetic behavior
multiferroics
structural transition
VSM

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title = "Multiferroics Made via Chemical Co-Precipitation That Is Synthesized and Characterized as Bi(1−x)CdxFeO3",

abstract = "Cd-doped BiFeO3 powders, with varying doping concentrations of Cd (Bi(1−x)CdxFeO3, where x = 0–0.3), were prepared through a facile chemical co-precipitation method and calcinated at 550 °C in the air. The BiFeO3 has a rhombohedral crystal structure, which changes to an orthorhombic crystal structure with an increase in Cd doping. The presence of dopant has also altered the bandgap of material suppressing it from 2.95 eV to 2.51 eV, improving the visible light absorption. Vibrating sample magnetometry (VSM) confirmed stronger ferromagnetic character for Bi0.7Cd0.3FeO3 with a coercivity of 250 Oe, and remnant magnetization was 0.15 emu/g, which is because of the misalignment of the two sublattices of perovskite structure after doping resulting in the imbalanced magnetic moment giving rise to net nonzero magnetic behavior. The particle size reduction is observed with an increase in the doping concentration of Cd.",

keywords = "co-precipitation method, doping concentration, magnetic behavior, multiferroics, structural transition, VSM",

author = "Mehmood, \{Syed Zain\} and Mubashar Arshad and Alharbi, \{Fahad M.\} and Eldin, \{Sayed M.\} and Galal, \{Ahmed M.\}",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = mar,

doi = "10.3390/inorganics11030134",

language = "English",

volume = "11",

journal = "Inorganics",

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AU - Mehmood, Syed Zain

AU - Arshad, Mubashar

AU - Alharbi, Fahad M.

AU - Eldin, Sayed M.

AU - Galal, Ahmed M.

PY - 2023/3

Y1 - 2023/3

N2 - Cd-doped BiFeO3 powders, with varying doping concentrations of Cd (Bi(1−x)CdxFeO3, where x = 0–0.3), were prepared through a facile chemical co-precipitation method and calcinated at 550 °C in the air. The BiFeO3 has a rhombohedral crystal structure, which changes to an orthorhombic crystal structure with an increase in Cd doping. The presence of dopant has also altered the bandgap of material suppressing it from 2.95 eV to 2.51 eV, improving the visible light absorption. Vibrating sample magnetometry (VSM) confirmed stronger ferromagnetic character for Bi0.7Cd0.3FeO3 with a coercivity of 250 Oe, and remnant magnetization was 0.15 emu/g, which is because of the misalignment of the two sublattices of perovskite structure after doping resulting in the imbalanced magnetic moment giving rise to net nonzero magnetic behavior. The particle size reduction is observed with an increase in the doping concentration of Cd.

AB - Cd-doped BiFeO3 powders, with varying doping concentrations of Cd (Bi(1−x)CdxFeO3, where x = 0–0.3), were prepared through a facile chemical co-precipitation method and calcinated at 550 °C in the air. The BiFeO3 has a rhombohedral crystal structure, which changes to an orthorhombic crystal structure with an increase in Cd doping. The presence of dopant has also altered the bandgap of material suppressing it from 2.95 eV to 2.51 eV, improving the visible light absorption. Vibrating sample magnetometry (VSM) confirmed stronger ferromagnetic character for Bi0.7Cd0.3FeO3 with a coercivity of 250 Oe, and remnant magnetization was 0.15 emu/g, which is because of the misalignment of the two sublattices of perovskite structure after doping resulting in the imbalanced magnetic moment giving rise to net nonzero magnetic behavior. The particle size reduction is observed with an increase in the doping concentration of Cd.

KW - co-precipitation method

KW - doping concentration

KW - magnetic behavior

KW - multiferroics

KW - structural transition

KW - VSM

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DO - 10.3390/inorganics11030134

M3 - Article

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SN - 2304-6740

VL - 11

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IS - 3

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ER -

Multiferroics Made via Chemical Co-Precipitation That Is Synthesized and Characterized as Bi_(1−x)Cd_xFeO₃

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Keywords

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