Strontium titanate is brown crystal, which can process into wafer, chip, granule, rod and powder.
SrTiO3 is a multifunctional oxide material with exceptional electronic, optical, and thermal properties, making it highly valuable in a wide range of advanced applications. Knwon for its high dielectric constant, transparency, and photoconductivity, SrTiO3 is used in industries such as electronics, optics, and photonics, where its performance characteristics enable innovative solutions in high-tech devices and systems.
Strontium Titanate
| CAS No.:12060-59-2 | EINECS No.:235-044-1 | Molecular Formula:SrTiO3 | Molecular Weight:183.49 |
| Density:5.11 | Microhardness:595 | Vapor Density:4.810 | Specific Heat:0.62 |
| Orientation:<111> | Size:5mm*5mm | Thick:0.5mm | Finish:1sp |
Applications
SrTiO3 powder is important raw material for electronic industry, which apply to make self adjustable heating parts and demagnetization purpose parts.
In ceramic industry, SrTiO3 powder apply to make ceramic capacitor, piezoceramic material, ceramic sensitive element and microwave ceramic parts. It also acts as pigment, enamel, heat-resisting material and insulating material.
Monocrystal wafer has high refractive index and dielectric constant, which act us optical material and artificial gem usually. Superconductor based on it succeed.
In electronics, SrTiO3 is utilized as a dielectric material in capacitors, resistaors, and transducers. Its high dielectric constant and stability allow it to store and manage electrical energy efficiently, making it suitable for integration into compact, high-performance components inconsumer electronics, telecommunications, and power management systems. SrTiO3 is also employed as a substrate material for growing thin film of complex oxides and smieconductors in research and development, facilitating studies in superconductivity, ferroelectricity, and other phenomena essential to cutting-edge electronic devices.
In the field of optics, SrTiO3 is known for its high refractive index and optical transparency. These properties make it an ideal material for optical applications, including lenses, prisms, and laser components. Its unique ability to mimic the appearance of diamond has also led to its use as a gemstone alternative in the jewelry industry. Additionally, due to its photoconductive and electro-optic properties, SrTiO3 is an important material in optoelectronics, enabling devices such as light detectors, waveguides, and modulators.
Strontium titanate also play a role in photonics, where it is used in photocatalysis and photovoltaic applications. Its light absorption and conductivity make it suitable for solar cells and other energy-harvesting devices, contributing to sustainable energy solutions. As a photocatalyst, SrTiO3 aids in water-splitting reactions and other chemical processes, supporting the development of clean energy technologies.