Concentration Dependence of Magnetic Moment in Ce1-xFexO2

Geoffrey L. Beausoleil; Aaron Thurber; S. S. Rao; Gordon A. Alanko; Charles Hanna; Alex Punnoose

Concentration Dependence of Magnetic Moment in Ce_1-xFe_xO₂

Geoffrey L. Beausoleil, Aaron Thurber, S. S. Rao, Gordon A. Alanko, Charles Hanna, Alex Punnoose

Physics Department

Boise State University

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Abstract

In this study, we examined the impact of iron doping on the structural, chemical, and magnetic properties of ceria (Ce_1-xFe_xO₂). Samples were produced in triplicate through a coprecipitation approach in a forced hydrolysis synthesis that yielded consistently sized nanocrystals using three different cerium precursors: cerium chloride, cerium ammonium nitrate, and cerium nitrate. Particles were characterized by x ray diffraction (XRD), x ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), electron paramagnetic resonance (EPR) spectroscopy, and vibrating sample magnetometry (VSM). XPS and EPR data shows iron to be in the Fe³⁺ state and confirms the nominal dopant concentration. The moment per Fe ion found was largest at the lowest dopant concentrations, and quickly decreased as the concentration was increased. We used XPS to estimate the Ce³⁺/Ce⁴⁺ ratio and observed a linear relation between the saturation magnetization and the Ce³⁺/Ce⁴⁺ ratio.

Original language	American English
Journal	Journal of Applied Physics
State	Published - 1 Apr 2012

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Concentration Dependence of Magnetic Moment in Ce sub 1-x sub FeFinal published version, 313 KBLicense: Unspecified
Concentration Dependence of Magnetic Moment in Ce sub 1-x sub FeFinal published version, 313 KBLicense: Unspecified

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title = "Concentration Dependence of Magnetic Moment in Ce1-xFexO2",

abstract = "In this study, we examined the impact of iron doping on the structural, chemical, and magnetic properties of ceria (Ce1-xFexO2). Samples were produced in triplicate through a coprecipitation approach in a forced hydrolysis synthesis that yielded consistently sized nanocrystals using three different cerium precursors: cerium chloride, cerium ammonium nitrate, and cerium nitrate. Particles were characterized by x ray diffraction (XRD), x ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), electron paramagnetic resonance (EPR) spectroscopy, and vibrating sample magnetometry (VSM). XPS and EPR data shows iron to be in the Fe3+ state and confirms the nominal dopant concentration. The moment per Fe ion found was largest at the lowest dopant concentrations, and quickly decreased as the concentration was increased. We used XPS to estimate the Ce3+/Ce4+ ratio and observed a linear relation between the saturation magnetization and the Ce3+/Ce4+ ratio.",

author = "Beausoleil, \{Geoffrey L.\} and Aaron Thurber and Rao, \{S. S.\} and Alanko, \{Gordon A.\} and Charles Hanna and Alex Punnoose",

year = "2012",

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language = "American English",

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TY - JOUR

T1 - Concentration Dependence of Magnetic Moment in Ce1-xFexO2

AU - Beausoleil, Geoffrey L.

AU - Thurber, Aaron

AU - Rao, S. S.

AU - Alanko, Gordon A.

AU - Hanna, Charles

AU - Punnoose, Alex

PY - 2012/4/1

Y1 - 2012/4/1

N2 - In this study, we examined the impact of iron doping on the structural, chemical, and magnetic properties of ceria (Ce1-xFexO2). Samples were produced in triplicate through a coprecipitation approach in a forced hydrolysis synthesis that yielded consistently sized nanocrystals using three different cerium precursors: cerium chloride, cerium ammonium nitrate, and cerium nitrate. Particles were characterized by x ray diffraction (XRD), x ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), electron paramagnetic resonance (EPR) spectroscopy, and vibrating sample magnetometry (VSM). XPS and EPR data shows iron to be in the Fe3+ state and confirms the nominal dopant concentration. The moment per Fe ion found was largest at the lowest dopant concentrations, and quickly decreased as the concentration was increased. We used XPS to estimate the Ce3+/Ce4+ ratio and observed a linear relation between the saturation magnetization and the Ce3+/Ce4+ ratio.

AB - In this study, we examined the impact of iron doping on the structural, chemical, and magnetic properties of ceria (Ce1-xFexO2). Samples were produced in triplicate through a coprecipitation approach in a forced hydrolysis synthesis that yielded consistently sized nanocrystals using three different cerium precursors: cerium chloride, cerium ammonium nitrate, and cerium nitrate. Particles were characterized by x ray diffraction (XRD), x ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), electron paramagnetic resonance (EPR) spectroscopy, and vibrating sample magnetometry (VSM). XPS and EPR data shows iron to be in the Fe3+ state and confirms the nominal dopant concentration. The moment per Fe ion found was largest at the lowest dopant concentrations, and quickly decreased as the concentration was increased. We used XPS to estimate the Ce3+/Ce4+ ratio and observed a linear relation between the saturation magnetization and the Ce3+/Ce4+ ratio.

UR - https://scholarworks.boisestate.edu/physics_facpubs/97

M3 - Article

JO - Journal of Applied Physics

JF - Journal of Applied Physics

ER -

Concentration Dependence of Magnetic Moment in Ce_1-xFe_xO₂

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