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Cerium Yttrium Ferrite Sputtering Targets

Cerium Yttrium Ferrite Sputtering Targets

Cerium Yttrium Ferrite Sputtering Targets
Product No NRE-43213
CAS No. NA
Formula Ce2.5Y0.5Fe5O12
Molecular Weight NA
Purity >99.9%
Density NA
Thickness 3 mm ± 0.5mm (can be customized)
Diameter 50 mm ± 1mm (can be customized)
Shape Round
Resistivity NA
Thermal Conductivity NA

Cerium Yttrium Ferrite Sputtering Targets

Cerium yttrium ferrite sputtering targets are used in advanced technologies, particularly where specific magnetic and electronic properties are required. These targets are used to deposit thin films of cerium yttrium ferrite (CeYFeO₃), which is a type of perovskite oxide. Here’s an overview of their applications, benefits, and considerations.

Cerium Yttrium Ferrite Sputtering Targets

Composition and Properties

Composition:

Cerium (Ce): Adds catalytic and optical properties.

Yttrium (Y): Enhances thermal and chemical stability.

Ferrite (Fe): Provides magnetic properties.

Properties:

Magnetic: Cerium yttrium ferrite exhibits ferromagnetic properties, making it useful in magnetic applications.

Electrical: It has specific electrical properties, such as piezoelectricity and dielectric behavior.

Optical: The material can have interesting optical characteristics due to the combination of its constituent elements.

Applications

Magnetic Materials

High-Performance Magnets:

Applications: Thin films for data storage devices, magnetic sensors, and actuators.

Benefits: Provides strong magnetic properties, which are crucial for high-density data storage and precise magnetic sensing.

Magnetic Sensors:

Applications: Used in sensors that detect magnetic fields in various devices.

Benefits: Enhanced sensitivity and accuracy in detecting magnetic changes.

Electronics and Sensors

Piezoelectric Devices:

Applications: Thin films used in piezoelectric sensors and actuators.

Benefits: Provides piezoelectric effects, converting mechanical stress into electrical signals or vice versa.

Dielectric Materials:

Applications: Utilized in capacitors and other electronic components requiring specific dielectric properties.

Benefits: Enhances the performance and stability of electronic components.

Optical Devices

Optical Coatings:

Applications: Coatings for optical elements where precise control of light is necessary.

Benefits: Improves the optical performance of lenses and other optical devices.

Energy Storage and Conversion

Fuel Cells:

Applications: Used in solid oxide fuel cells (SOFCs) for electrolyte or electrode coatings.

Benefits: Improves ionic conductivity and efficiency of fuel cells.

Supercapacitors:

Applications: Thin films for high-energy storage devices.

Benefits: Enhances energy storage capabilities and performance.

Thermoelectric Devices

Thermoelectric Generators:

Applications: Used in devices that convert heat directly into electricity.

Benefits: Provides materials with suitable thermoelectric properties to improve efficiency.

 

 

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