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Bismuth Calcium Ferrite Sputtering Targets

Bismuth Calcium Ferrite Sputtering Targets

Bismuth Calcium Ferrite Sputtering Targets
Product No NRE-43196
CAS No. NA
Formula Bi0.9Ca0.1FeO3
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

Bismuth Calcium Ferrite Sputtering Targets

Bismuth Calcium Ferrite Sputtering Targets

Bismuth calcium ferrite (BiFeO3-CaFe2O4) sputtering targets are used in various advanced material applications due to their unique properties, which combine elements of both bismuth ferrite and calcium ferrite. Here are some key applications:

Multiferroic Materials: Bismuth calcium ferrite is known for its multiferroic properties, which means it can exhibit both ferroelectric and ferromagnetic behaviors. This makes it useful in applications where the coupling of electric and magnetic properties is beneficial. Such applications include:

Memory Devices: Multiferroic materials are investigated for their potential in non-volatile memory devices, where data can be stored using electric and magnetic fields.

Spintronics: Devices that use electron spin as well as charge for information processing can benefit from the unique properties of multiferroic materials like Bi-Ca ferrite.

Piezoelectric Devices: Due to its ferroelectric properties, bismuth calcium ferrite can be used in piezoelectric devices, which convert mechanical stress into electrical signals and vice versa. These are useful in sensors, actuators, and energy harvesting applications.

Photovoltaic Devices: The unique electronic and optical properties of bismuth calcium ferrite can be exploited in photovoltaic applications. Thin films produced using sputtering can be used in solar cells to improve efficiency or introduce new functionalities.

Catalysis: The catalytic properties of bismuth calcium ferrite make it useful in various chemical reactions. Thin films and coatings of Bi-Ca ferrite can be employed in catalytic converters or other catalytic processes.

High-Efficiency Coatings: The material’s high stability and unique electronic properties make it suitable for various high-efficiency coatings in electronic and optical applications. These coatings can be used in devices where high performance and stability are required.

Sensors: The combination of ferroelectric and magnetic properties allows bismuth calcium ferrite to be used in advanced sensor technologies, including those that detect changes in magnetic fields or electric fields.

 

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