Barium Titanate /BaTiO3 Submicron Powder (BaTiO3, 99.9%, APS <2um,Tetragonal)
High-thickness optical information stockpiling; Phase conjugated mirrors and lasers; Nonlinear optical gadgets; Pattern acknowledgment; Micro-capacitors; Ferroelectric pottery; PTC thermistors; On-chip programmable gadgets; Optical figuring; Optical picture handling…
| Barium Titanate Submicron Powder | |
| Product No | NRE-10007 |
| CAS No. | 12047-27-7 |
| Formula | BaTiO3 |
| APS | <2 um (Can be Customized) |
| Purity | 99.9% |
| Color | white |
| Molecular Weight | 233.19 g/mol |
| Density | 6.02 g/cm3 |
| Melting Point | 1625 °C |
| Boiling Point | NA |
Barium Titanate Submicron Powder (BaTiO3,Tetragonal) Application:
High-thickness optical information stockpiling; Phase conjugated mirrors and lasers; Nonlinear optical gadgets; Pattern acknowledgment; Micro-capacitors; Ferroelectric pottery; PTC thermistors; On-chip programmable gadgets; Optical figuring; Optical picture handling; Piezoelectric gadgets; Pyroelectric sensors; Semiconductive earthenware production; Varistors; Electro-optic gadgets; Ceramic capacitors; Dielectric intensifiers; Dynamic holography.
Applications
Electronics and Capacitors:
High-Capacitance Ceramic Capacitors: BaTiO₃ submicron powder is a key material for producing high-capacitance capacitors, especially multilayer ceramic capacitors (MLCCs). These capacitors are crucial for modern electronics such as smartphones, computers, and automotive systems, where compact size and high performance are needed.
Energy Storage Devices: Due to its high dielectric constant, BaTiO₃ submicron powder is used in energy storage devices like capacitors and supercapacitors, offering high energy density and improved charging/discharging rates.
Piezoelectric Devices:
Sensors and Actuators: BaTiO₃’s piezoelectric properties make it ideal for use in sensors and actuators. In submicron form, the material is used to create more efficient and sensitive sensors for measuring mechanical stress, pressure, and vibration in various industrial, automotive, and medical applications.
Ultrasonic Transducers: The piezoelectric properties are also exploited in ultrasonic transducers for medical imaging, non-destructive testing, and industrial applications. The submicron powder form provides enhanced performance in such devices due to its increased surface area and reactivity.
Ferroelectric Memory (FeRAM):
Non-Volatile Memory Devices: BaTiO₃ submicron powder is used in the production of Ferroelectric RAM (FeRAM), a type of non-volatile memory that uses the ferroelectric properties of BaTiO₃ to store data. This memory technology is used in applications requiring low power consumption, high speed, and endurance (such as in medical devices, embedded systems, and sensors).
Medical Applications:
Ultrasound Transducers: Due to its piezoelectric properties, BaTiO₃ submicron powder is used in the manufacturing of ultrasound transducers for medical imaging devices, enabling better resolution and sensitivity in diagnostic equipment.
Biosensors: BaTiO₃ submicron powder can be used in biosensors for detecting biomolecules, making it useful in medical diagnostics, monitoring systems, and environmental sensors.
Optical Applications:
Optical Modulators: BaTiO₃ exhibits electro-optic properties, and when processed into submicron powders, it is used in the production of optical modulators. These devices are employed in telecommunication systems, where they control the intensity, phase, or polarization of light passing through optical fibers.
Nonlinear Optical Devices: The submicron powder form of BaTiO₃ is used in nonlinear optics for applications like lasers and optical switching devices, where its unique properties allow for efficient manipulation of light signals.
