Product Properties
Titanium Silicide(TiSi2) nanopowder/nanoparticles (nm & um)
Size | Type | Particle size(um) | Purity(%) | Specific surface area(m2/g) | Bulk density(g/cm3) | Polymorphs | Color |
nm | JB-TiSi2-001 | <1.0 | 99.9 | 15.49 | 2.145 | cube | black |
micronpowder | JB-TiSi2-002 | 1-5um | 99.9 | 12.74 | 2.460 | cube | gray black |
| um | JB-TiSi2-005 | 200 mesh | 99.5 | 3.43 | 3.183 | cube | gray black |
Custom | Acccording to customers requirment. | ||||||
Titanium Silicide (TiSi2) Nanopowder Main Feature
TiSi2 is highly conductive, which is crucial for its use in semiconductor devices. It serves as a contact material between silicon and metal layers, improving the efficiency of electrical signal transmission. TiSi2 maintains its structural integrity and conductivity at high temperatures, making it suitable for applications in environments where thermal stability is essential.TiSi2 forms a low Schottky barrier with silicon, which is advantageous for the fabrication of metal-oxide-semiconductor (MOS) devices, enhancing their performance.While primarily noted for its electrical properties, TiSi2 also has good thermal conductivity, aiding in heat dissipation in electronic components.
Titanium Silicide (TiSi2) Nanopowder Applications
Microelectronics and Semiconductors: TiSi2 is widely used in the semiconductor industry for the production of integrated circuits (ICs). It serves as a contact material between the silicon of the semiconductor devices and the metal leads that connect them to the external circuits, improving the performance of the device by reducing contact resistance.
Photovoltaic (Solar Cells): Due to its excellent electrical conductivity and compatibility with silicon, TiSi2 nanopowder is used in the production of photovoltaic cells. It helps in the efficient conversion of solar energy into electrical energy, enhancing the performance of solar cells.
High-Temperature Coatings: The high melting point and oxidation resistance of TiSi2 make it suitable for use as a coating material in high-temperature environments. It is applied to components in turbines, aerospace vehicles, and other high-performance applications to protect them from oxidation and wear.
Resistive Heating Elements: TiSi2 nanopowder is used in the manufacturing of resistive heating elements due to its ability to withstand high temperatures without degrading. These elements are utilized in industrial furnaces and household appliances.
MEMS (Micro-Electro-Mechanical Systems): The nanopowder is used in the fabrication of MEMS devices because of its mechanical strength and stability at high temperatures. These devices have applications in various fields, including automotive sensors, medical devices, and telecommunications.