| Catalogue Code | IN-FeTi-01 IN-FeTi-02 |
| CAS No. | 12645-50-0 |
| Chemical Formula | TiFe2O4 |
| Compound Name | Titanium Ferrite |
| Purity (%) | >99.9 |
| Dimensions | Dia. 1”, Thick. 0.125” Dia. 2”, Thick. 0.25” |
Introduction
Titanium ferrite, or TiFe2O4, is a mixed metal oxide of titanium and iron. Magnetic applications in electronics and catalytic activities characterize it. TiFe₂O₄ is often employed as a sputtering target in magnetron sputtering processes to deposit thin films of titanium ferrite onto different substrates; their properties depend on the selected sputtering parameters, including deposition temperature, power, and substrate choice.
Properties
Titanium ferrite is known for its unique properties. Some of its properties are tabulated below:
| Property | Details |
| Appearance | Solid |
| Molar Mass | ≈202.86 g/mol |
| Density | ≈7.35 g/cm³ |
| Magnetic Properties | Ferromagnetic behavior |
| Electrical Conductivity | Semiconducting behavior |
| Thermal Stability | Stable at high temperatures |
Applications
Following are some typical applications of titanium ferrite:
- Magnetic Materials: Due to its ferromagnetic character, it is utilized in magnetic sensors, actuators, and data storage devices.
- Optical properties: The optical behavior of TiFe₂O₄ films can be adjusted based on deposition conditions, making them useful for coatings that require specific optical transmission or reflection.
- Chemical stability: TiFe₂O₄ films are generally chemically stable, making them suitable for harsh environments or protective coatings.
- Thermal stability: TiFe₂O₄ thin films maintain their properties across a wide temperature range, offering stability in high-temperature applications.
- Coatings: This compound is a protective coating and pigment due to its stability and color characteristics.
FAQs
Answere: TiFe₂O₄ is a mixed metal oxide compound consisting of titanium and iron, forming a ferrite structure. It is used as a sputtering target to deposit thin films of titanium ferrite on various substrates.
Answere: Among the applications are magnetic materials, catalysis and photocatalysis, electronics, energy storage, coatings, and applications for environmental issues.
Answere: TiFe₂O₄ nanoparticle thin films are commonly deposited using magnetron sputtering, a versatile technique for precise film thickness and composition control.
Answere: Yes, it is applied to photocatalytic water splitting and degradation of pollutants with light irradiation.
Answere: Yes, due to their optical and electrical properties, TiFe₂O₄ thin films can be used in solar cells or optical coatings.
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