Attestation in self-propagating combustion approach of spinel AFe2O4 (A=Co, Mg and Mn) complexes bearing mixed oxidation states: Magnetostructural properties

[Display omitted] •Spinel type ferrite compounds AFe2O4 (A=Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine as fuel.•To investigate and confirms the presence of phases in the synthesized ferrite nanoparticles by XRD and FTIR analysis.•The formation o...

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Published inApplied surface science Vol. 383; pp. 113 - 125
Main Authors Bennet, J., Tholkappiyan, R., Vishista, K., Jaya, N. Victor, Hamed, Fathalla
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2016
Subjects
Combustion
Ferrite
Ferrite nanoparticles
Infrared spectroscopy
Iron
Magnetic properties
Magnetic property
Manganese
Self-propagating combustion method
Spinel
X-rays
X−ray diffraction
X−ray photoelectron spectroscopy
Magnetic property
Ferrite nanoparticles
Self-propagating combustion method
X−ray diffraction
X−ray photoelectron spectroscopy
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Abstract [Display omitted] •Spinel type ferrite compounds AFe2O4 (A=Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine as fuel.•To investigate and confirms the presence of phases in the synthesized ferrite nanoparticles by XRD and FTIR analysis.•The formation of mixed oxidation state of cobalt (Co2+ and Co3+), iron (Fe2+ and Fe3+) and manganese (Mn2+ and Mn3+) ions were studied and confirmed from XPS analysis.•The magnetic properties of the synthesized ferrites were studied by VSM measurement. Spinel type nano-sized ferrite compounds AFe2O4 (A=Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine as fuel at 400°C under air atmosphere for 4h. The crystal structure, chemical composition, morphology and magnetic properties of the synthesized samples were characterized by X−ray diffraction, Fourier transform infrared spectroscopy, X−ray photoelectron spectroscopy, Energy dispersive X−ray, Scanning and Transmission electron microscopy and vibrating sample magnetometer. The chemical reaction and role of fuel on the nanoparticles formation were discussed. The XRD pattern of the synthesized samples shows the formation of pure phase with average crystallite size of 97, 57 and 98nm from Scherrer formula and 86, 54 and 87nm from Williamson and Hall (W–H) formula respectively. FTIR absorption spectra revealed that the presence of strong absorption peaks near 400–600cm−1 corresponds to tetrahedral and octahedral complex of spinel ferrites. The relative concentrations of electronic states of elements such as cobalt (Co2+ and Co3+), iron (Fe2+ and Fe3+) and manganese (Mn2+ and Mn3+) oxidation states were studied from XPS and it is found that 55% of Fe ions are in Fe2+ state and the remaining is in Fe3+ state and thus the cationic distribution of Fe ions occurred in both tetrahedral and octahedral sites. SEM analysis indicates the presence of pore like morphology which is nearly homogenous because of combustion process. EDS analysis confirms the presence of elements in the ferrite samples. By replacing the active ‘A’ site cations in AFe2O4 (A=Co, Mg and Mn) samples show the different magnetic properties. The parameters like saturation magnetization, coercivity and remnant magnetization obtained from M−H loops are studied in room temperature.
AbstractList [Display omitted] •Spinel type ferrite compounds AFe2O4 (A=Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine as fuel.•To investigate and confirms the presence of phases in the synthesized ferrite nanoparticles by XRD and FTIR analysis.•The formation of mixed oxidation state of cobalt (Co2+ and Co3+), iron (Fe2+ and Fe3+) and manganese (Mn2+ and Mn3+) ions were studied and confirmed from XPS analysis.•The magnetic properties of the synthesized ferrites were studied by VSM measurement. Spinel type nano-sized ferrite compounds AFe2O4 (A=Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine as fuel at 400°C under air atmosphere for 4h. The crystal structure, chemical composition, morphology and magnetic properties of the synthesized samples were characterized by X−ray diffraction, Fourier transform infrared spectroscopy, X−ray photoelectron spectroscopy, Energy dispersive X−ray, Scanning and Transmission electron microscopy and vibrating sample magnetometer. The chemical reaction and role of fuel on the nanoparticles formation were discussed. The XRD pattern of the synthesized samples shows the formation of pure phase with average crystallite size of 97, 57 and 98nm from Scherrer formula and 86, 54 and 87nm from Williamson and Hall (W–H) formula respectively. FTIR absorption spectra revealed that the presence of strong absorption peaks near 400–600cm−1 corresponds to tetrahedral and octahedral complex of spinel ferrites. The relative concentrations of electronic states of elements such as cobalt (Co2+ and Co3+), iron (Fe2+ and Fe3+) and manganese (Mn2+ and Mn3+) oxidation states were studied from XPS and it is found that 55% of Fe ions are in Fe2+ state and the remaining is in Fe3+ state and thus the cationic distribution of Fe ions occurred in both tetrahedral and octahedral sites. SEM analysis indicates the presence of pore like morphology which is nearly homogenous because of combustion process. EDS analysis confirms the presence of elements in the ferrite samples. By replacing the active ‘A’ site cations in AFe2O4 (A=Co, Mg and Mn) samples show the different magnetic properties. The parameters like saturation magnetization, coercivity and remnant magnetization obtained from M−H loops are studied in room temperature.
Spinel type nano-sized ferrite compounds AFe2O4 (A=Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine as fuel at 400 degree C under air atmosphere for 4h. The crystal structure, chemical composition, morphology and magnetic properties of the synthesized samples were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, X-ray photoelectron spectroscopy, Energy dispersive X-ray, Scanning and Transmission electron microscopy and vibrating sample magnetometer. The chemical reaction and role of fuel on the nanoparticles formation were discussed. The XRD pattern of the synthesized samples shows the formation of pure phase with average crystallite size of 97, 57 and 98nm from Scherrer formula and 86, 54 and 87nm from Williamson and Hall (W-H) formula respectively. FTIR absorption spectra revealed that the presence of strong absorption peaks near 400-600cm-1 corresponds to tetrahedral and octahedral complex of spinel ferrites. The relative concentrations of electronic states of elements such as cobalt (Co2+ and Co3+), iron (Fe2+ and Fe3+) and manganese (Mn2+ and Mn3+) oxidation states were studied from XPS and it is found that 55% of Fe ions are in Fe2+ state and the remaining is in Fe3+ state and thus the cationic distribution of Fe ions occurred in both tetrahedral and octahedral sites. SEM analysis indicates the presence of pore like morphology which is nearly homogenous because of combustion process. EDS analysis confirms the presence of elements in the ferrite samples. By replacing the active 'A' site cations in AFe2O4 (A=Co, Mg and Mn) samples show the different magnetic properties. The parameters like saturation magnetization, coercivity and remnant magnetization obtained from M-H loops are studied in room temperature.
Author Jaya, N. Victor
Bennet, J.
Hamed, Fathalla
Tholkappiyan, R.
Vishista, K.
Author_xml – sequence: 1
  givenname: J.
  surname: Bennet
  fullname: Bennet, J.
  email: b.eenneett@gmail.com
  organization: Department of Physics, College of Engineering, Guindy, Anna University, Sardar Patel Road, Chennai,600025, India
– sequence: 2
  givenname: R.
  surname: Tholkappiyan
  fullname: Tholkappiyan, R.
  organization: Department of Physics, College of Engineering, Guindy, Anna University, Sardar Patel Road, Chennai,600025, India
– sequence: 3
  givenname: K.
  surname: Vishista
  fullname: Vishista, K.
  organization: Department of Physics, College of Engineering, Guindy, Anna University, Sardar Patel Road, Chennai,600025, India
– sequence: 4
  givenname: N. Victor
  surname: Jaya
  fullname: Jaya, N. Victor
  organization: Department of Physics, College of Engineering, Guindy, Anna University, Sardar Patel Road, Chennai,600025, India
– sequence: 5
  givenname: Fathalla
  surname: Hamed
  fullname: Hamed, Fathalla
  organization: Department of Physics, College of Science, UAE University, Al Ain 15551, United Arab Emirates
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Ferrite nanoparticles
Self-propagating combustion method
X−ray diffraction
X−ray photoelectron spectroscopy
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Snippet [Display omitted] •Spinel type ferrite compounds AFe2O4 (A=Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine...
Spinel type nano-sized ferrite compounds AFe2O4 (A=Co, Mg and Mn) have been successfully prepared by self-propagating combustion method using glycine as fuel...
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SubjectTerms Combustion
Ferrite
Ferrite nanoparticles
Infrared spectroscopy
Iron
Magnetic properties
Magnetic property
Manganese
Self-propagating combustion method
Spinel
X-rays
X−ray diffraction
X−ray photoelectron spectroscopy
Title Attestation in self-propagating combustion approach of spinel AFe2O4 (A=Co, Mg and Mn) complexes bearing mixed oxidation states: Magnetostructural properties
URI https://dx.doi.org/10.1016/j.apsusc.2016.04.177
https://search.proquest.com/docview/1825514296
Volume 383
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