Exploring the structural, optical, dielectric and magnetic properties of rare earth samarium doped Ca-Mg based Ca0.5Mg0.5Fe12−xSmxO19 ferrite nanoparticles

Exploring the structural, optical, dielectric and magnetic properties of rare earth samarium doped Ca-Mg based Ca0.5Mg0.5Fe12−xSmxO19 ferrite nanoparticles. [Display omitted] •A series of Samarium (Sm) doped Ca/Mg hexaferrite samples were gabricated.•Structure reveals a consistent magnetoplumbite ph...

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Vydáno v:Inorganic chemistry communications Ročník 170; s. 113159
Hlavní autoři: Alshammari, Basmah H., Alanazi, Kaseb D., Asif, Sana Ullah, Nawaz, Usman
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 01.12.2024
Témata:
Coercive field
Electric vehicle industry
Ferrites
Hexagonal ferrites
Magnetic materials
Rare earth metal
Ferrites
Electric vehicle industry
Hexagonal ferrites
Rare earth metal
Magnetic materials
Coercive field
ISSN:1387-7003
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Abstract Exploring the structural, optical, dielectric and magnetic properties of rare earth samarium doped Ca-Mg based Ca0.5Mg0.5Fe12−xSmxO19 ferrite nanoparticles. [Display omitted] •A series of Samarium (Sm) doped Ca/Mg hexaferrite samples were gabricated.•Structure reveals a consistent magnetoplumbite phase across all samples.•The higher concentrations of samarium resulted in reductions of dielectric loss (ε″) and dielectric constant (ε′).•The material possesses promising magnetic parameters falling within the ranges of 31.52–37.77 emu·g−1 for Ms, 18.16–21.53 emu·g−1 for Mr, and 2.088–2.243 kOe for Hc. The emergence of M-type hexaferrite presents an encouraging alternative to rare earth magnets, due to its economic feasibility and outstanding magnetic properties. This makes it a viable option for applications in the electric automotive and magnetic industry applications. In this study, we utilized a sol–gel auto-combustion technique to synthesize a series of samarium (Sm) doped calcium-magnesium (Ca-Mg) hexaferrite samples having chemical formula Ca0.5Mg0.5Fe12−xSmxO19 (x = 0.00, 0.05, 0.10, 0.15, and 0.20). The XRD analysis confirmed the crystal structure of the synthesized materials, revealing a consistent magneto-plumbite phase across all samples. Scanning electron microscopy (SEM) investigations further confirmed the homogeneous distribution and agglomeration of nanostructures. FTIR analysis identified the presence of two primary absorption bands in Ca-Mg hexaferrites with both bands exhibiting a shift towards lower frequency ranges with increasing doping levels. The dielectric loss (ε″) and dielectric constant (ε′) were higher at lower frequencies but decreased as the frequency increased. Additionally, higher concentrations of samarium resulted in further reductions in both dielectric loss (ε″) and dielectric constant (ε′). Notably, saturation magnetization (Ms) and remanence (Mr) values demonstrated an increasing trend with higher degrees of Sm+3 substitution, while coercivity (Hc) values exhibited relative stability. Our findings indicate that these materials possess promising magnetic parameters falling within the ranges of 31.52–37.77 emu·g−1 for Ms, 18.16–21.53 emu·g−1 for Mr, and 2.088–2.243 kOe for Hc, suggesting their potential utility across diverse applications including permanent magnets used in electric vehicle motors, storage devices, microwave components, and electromagnetic radiation absorbers.
AbstractList Exploring the structural, optical, dielectric and magnetic properties of rare earth samarium doped Ca-Mg based Ca0.5Mg0.5Fe12−xSmxO19 ferrite nanoparticles. [Display omitted] •A series of Samarium (Sm) doped Ca/Mg hexaferrite samples were gabricated.•Structure reveals a consistent magnetoplumbite phase across all samples.•The higher concentrations of samarium resulted in reductions of dielectric loss (ε″) and dielectric constant (ε′).•The material possesses promising magnetic parameters falling within the ranges of 31.52–37.77 emu·g−1 for Ms, 18.16–21.53 emu·g−1 for Mr, and 2.088–2.243 kOe for Hc. The emergence of M-type hexaferrite presents an encouraging alternative to rare earth magnets, due to its economic feasibility and outstanding magnetic properties. This makes it a viable option for applications in the electric automotive and magnetic industry applications. In this study, we utilized a sol–gel auto-combustion technique to synthesize a series of samarium (Sm) doped calcium-magnesium (Ca-Mg) hexaferrite samples having chemical formula Ca0.5Mg0.5Fe12−xSmxO19 (x = 0.00, 0.05, 0.10, 0.15, and 0.20). The XRD analysis confirmed the crystal structure of the synthesized materials, revealing a consistent magneto-plumbite phase across all samples. Scanning electron microscopy (SEM) investigations further confirmed the homogeneous distribution and agglomeration of nanostructures. FTIR analysis identified the presence of two primary absorption bands in Ca-Mg hexaferrites with both bands exhibiting a shift towards lower frequency ranges with increasing doping levels. The dielectric loss (ε″) and dielectric constant (ε′) were higher at lower frequencies but decreased as the frequency increased. Additionally, higher concentrations of samarium resulted in further reductions in both dielectric loss (ε″) and dielectric constant (ε′). Notably, saturation magnetization (Ms) and remanence (Mr) values demonstrated an increasing trend with higher degrees of Sm+3 substitution, while coercivity (Hc) values exhibited relative stability. Our findings indicate that these materials possess promising magnetic parameters falling within the ranges of 31.52–37.77 emu·g−1 for Ms, 18.16–21.53 emu·g−1 for Mr, and 2.088–2.243 kOe for Hc, suggesting their potential utility across diverse applications including permanent magnets used in electric vehicle motors, storage devices, microwave components, and electromagnetic radiation absorbers.
ArticleNumber 113159
Author Nawaz, Usman
Asif, Sana Ullah
Alshammari, Basmah H.
Alanazi, Kaseb D.
Author_xml – sequence: 1
  givenname: Basmah H.
  surname: Alshammari
  fullname: Alshammari, Basmah H.
  email: b.almatwa@uoh.edu.sa
  organization: Department of Chemistry, College of Science, University of Hail, P.O. Box 2440, Hail 81451, Saudi Arabia
– sequence: 2
  givenname: Kaseb D.
  surname: Alanazi
  fullname: Alanazi, Kaseb D.
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  givenname: Sana Ullah
  surname: Asif
  fullname: Asif, Sana Ullah
  email: sanaullahasif@gmail.com
  organization: School of Materials and Energy, Yunnan University, Kunming 650091, China
– sequence: 4
  givenname: Usman
  surname: Nawaz
  fullname: Nawaz, Usman
  organization: Department of Physics, Higher Education Department, Government of the Punjab, Pakistan
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crossref_primary_10_1016_j_mseb_2025_118760
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Keywords Ferrites
Electric vehicle industry
Hexagonal ferrites
Rare earth metal
Magnetic materials
Coercive field
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Snippet Exploring the structural, optical, dielectric and magnetic properties of rare earth samarium doped Ca-Mg based Ca0.5Mg0.5Fe12−xSmxO19 ferrite nanoparticles....
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SubjectTerms Coercive field
Electric vehicle industry
Ferrites
Hexagonal ferrites
Magnetic materials
Rare earth metal
Title Exploring the structural, optical, dielectric and magnetic properties of rare earth samarium doped Ca-Mg based Ca0.5Mg0.5Fe12−xSmxO19 ferrite nanoparticles
URI https://dx.doi.org/10.1016/j.inoche.2024.113159
Volume 170
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