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Electronic and Magnetic Materials Magneto-optical Devices: Utilizing the magneto-optical effect (such as Faraday rotation), these devices are used in optical isolators, optical modulators, and other fiber optic communication components. Sensors: Based on magnetic response characteristics, these can be used to create magnetic field sensors or temperature sensors.
Catalysis Field Photocatalysis: As a component of composite catalysts (such as with TiO₂), it is used for degrading organic pollutants and producing hydrogen from water. Thermal Catalysis: It exhibits catalytic activity in certain oxidation reactions (such as CO oxidation) and can be utilized in environmental protection or chemical processes.
Energy Materials Battery Electrodes: Research indicates its potential as a cathode material for lithium-ion batteries, enhancing battery cycle stability. Solid Oxide Fuel Cells (SOFC): Used as electrolyte or electrode materials, they leverage their ionic conductivity.
Ceramics and Composite Materials Structural Ceramics: When combined with other oxides (such as Al₂O₃, ZrO₂), they form high-strength, high-temperature resistant structural materials. Functional Coatings: These coatings, applied through spraying or coating techniques, are used for high-temperature corrosion-resistant coatings or magnetic coatings.
Biomedical Research Nanomaterials: Nano-scale YFeO₃ can serve as a contrast agent in magnetic resonance imaging (MRI) or as a targeted drug carrier (requiring surface modification).
Electronic and Magnetic Materials Magneto-optical Devices: Utilizing the magneto-optical effect (such as Faraday rotation), these devices are used in optical isolators, optical modulators, and other fiber optic communication components. Sensors: Based on magnetic response characteristics, these can be used to create magnetic field sensors or temperature sensors.
Catalysis Field Photocatalysis: As a component of composite catalysts (such as with TiO₂), it is used for degrading organic pollutants and producing hydrogen from water. Thermal Catalysis: It exhibits catalytic activity in certain oxidation reactions (such as CO oxidation) and can be utilized in environmental protection or chemical processes.
Energy Materials Battery Electrodes: Research indicates its potential as a cathode material for lithium-ion batteries, enhancing battery cycle stability. Solid Oxide Fuel Cells (SOFC): Used as electrolyte or electrode materials, they leverage their ionic conductivity.
Ceramics and Composite Materials Structural Ceramics: When combined with other oxides (such as Al₂O₃, ZrO₂), they form high-strength, high-temperature resistant structural materials. Functional Coatings: These coatings, applied through spraying or coating techniques, are used for high-temperature corrosion-resistant coatings or magnetic coatings.
Biomedical Research Nanomaterials: Nano-scale YFeO₃ can serve as a contrast agent in magnetic resonance imaging (MRI) or as a targeted drug carrier (requiring surface modification).
