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Barium Titanate Sputtering Target

Barium Titanate Sputtering Target

Barium Titanate Sputtering Target
Product No NRE-43015
CAS No. 12047-27-7
Formula BaTiO3
Molecular Weight 233.19 g/mol
Purity 99.9%
Density 6.08 g/mL at 25 °C(lit.)
Thickness 3 mm ± 0.5mm(can be customized)
Diameter 50 mm ± 1mm(can be customized)
Shape Round
Electrical Resistivity NA
Electronegativity NA

Barium Titanate Sputtering Target

Barium titanate (BaTiO₃) sputtering targets are used to deposit thin films of barium titanate, a material known for its remarkable electrical, optical, and mechanical properties. These thin films have a wide range of applications in advanced technology.

Ferroelectric Devices:

Ferroelectric RAM (FeRAM): BaTiO₃ is a key material in FeRAM due to its strong ferroelectric properties, which allow for non-volatile memory storage with fast read/write speeds.

Piezoelectric Devices: BaTiO₃ thin films are used in piezoelectric sensors and actuators, which convert mechanical stress into electrical signals or vice versa.

High-Dielectric Constant Capacitors:

Multilayer Ceramic Capacitors (MLCCs): BaTiO₃ is used in MLCCs where its high dielectric constant allows for miniaturization of capacitors with high capacitance values.

Tunable Capacitors: In some applications, BaTiO₃ is used in tunable capacitors where its dielectric properties can be adjusted by applying an electric field.

Electronics:

High-Frequency Devices: BaTiO₃ thin films are employed in high-frequency electronic devices, including filters and resonators, due to their dielectric properties.

Insulating Layers: In integrated circuits, BaTiO₃ is used as an insulating layer to separate different components and prevent electrical interference.

Optoelectronics:

Optical Coatings: BaTiO₃ thin films are used in optical coatings for their ability to enhance the performance of optical filters, mirrors, and anti-reflective coatings.

Sensors and Actuators:

Pressure Sensors: BaTiO₃’s piezoelectric properties make it suitable for use in pressure sensors that require high sensitivity and precision.

Vibration Sensors: The material is also used in vibration sensors where its ability to convert mechanical vibrations into electrical signals is valuable.

Energy Storage:

Capacitors: BaTiO₃ thin films are used in various types of capacitors for energy storage applications, benefiting from their high dielectric constant and stability.

RF and Microwave Devices:

Phase Shifters and Filters: BaTiO₃’s tunable dielectric properties make it useful in RF and microwave phase shifters and filters, where precise control of signal frequency and phase is required.

Thermoelectric Materials:

Energy Harvesting: Although less common, BaTiO₃ has potential applications in thermoelectric materials for converting temperature differences into electrical energy.

 

 

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