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Bismuth Ferrite Garnet Sputtering Targets

Bismuth Ferrite Garnet Sputtering Targets

Bismuth Ferrite Garnet Sputtering Targets
Product No NRE-43340
CAS No. NA
Formula Bi3Fe5O12
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 Ferrite Garnet Sputtering Targets

Bismuth Ferrite Garnet Sputtering Targets

Bismuth ferrite garnet (BiFeO3) sputtering targets are used to produce thin films of this material, which has several significant applications due to its unique properties. Bismuth ferrite is a type of multiferroic material, meaning it exhibits both ferroelectric and magnetic properties. Here are some key applications of bismuth ferrite garnet sputtering targets:

Multiferroic Devices: Bismuth ferrite is a well-known multiferroic material, making it valuable for applications where the coupling of electric and magnetic fields is useful:

Memory Devices: In non-volatile memory technologies, such as magnetoelectric random-access memory (MeRAM), bismuth ferrite can be used to create memory cells that leverage its multiferroic properties.

Spintronics: The material’s ferroelectric and magnetic properties make it suitable for spintronic devices, which use electron spin for information processing and storage.

Piezoelectric Devices: Bismuth ferrite exhibits piezoelectric properties, which means it can convert mechanical stress into electrical signals and vice versa. This is useful for:

Sensors: Piezoelectric sensors based on bismuth ferrite can detect changes in pressure, force, or vibrations.

Actuators: Devices that use mechanical motion driven by electrical signals, such as micro-actuators or ultrasonic transducers, can benefit from bismuth ferrite thin films.

Photovoltaic Devices: The electronic properties of bismuth ferrite can be utilized in photovoltaic applications. Thin films of BiFeO3 can be used in solar cells to enhance efficiency or introduce new functionalities.

Catalysis: Bismuth ferrite can serve as a catalyst or a catalyst support in various chemical reactions. Thin films of BiFeO3 can be used in catalytic processes in chemical and environmental applications.

Optoelectronics: The material’s optical properties make it suitable for use in optoelectronic devices, such as:

Photodetectors: Devices that detect light and convert it into an electrical signal can benefit from bismuth ferrite thin films.

Laser Technology: The unique properties of bismuth ferrite can be explored for use in laser technology and related applications.

High-Frequency Devices: Bismuth ferrite’s properties at high frequencies can be leveraged in various RF (radio frequency) and microwave devices. This includes applications in telecommunications and radar systems.

Magnetoelectric Sensors: The coupling between magnetic and electric fields in bismuth ferrite makes it useful for sensors that measure magnetic fields or electric fields with high precision.

 

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