Product Properties
Tantalum Silicide (TaSi2) nanopowder/nanoparticles (nm & um)
Size | Type | Particle size(nm) | Purity(%) | Specific surface area(m2/g) | Bulk density(g/cm3) | Polymorphs | Color |
nm | JB-TaSi2-001 | 30nm | 99.9 | 36.53 | 5.16 | cube | gray black |
| sub nm | JB-TaSi2-002 | <1.0 | 99.9 | 26.12 | 5.81 | cube | gray black |
micronpowder | JB-TaSi2-003 | 1-5um | 99.9 | 16.13 | 5.94 | cube | gray black |
| mesh | JB-TaSi2-005 | 200 mesh | 99.9 | 7.29 | 6.98 | cube | gray |
Custom | Acccording to customers requirment. | ||||||
Tantalum Silicide (TaSi2) Nanopowder Main Feature
Tantalum Silicide has a melting point of approximately 2200°C (3992°F), making it suitable for use in high-temperature applications, such as components in jet engines and high-speed aerospace vehicles where materials must withstand extreme heat.Despite its silicide composition, TaSi2 exhibits good electrical conductivity, which is advantageous for electronic applications, including integrated circuits (ICs) and other semiconductor devices. This property is particularly valuable in the miniaturization of electronic components where efficient conductivity at the nanoscale is essential.Alongside its electrical properties, TaSi2 has good thermal conductivity. This feature is critical for materials used in heat dissipation applications, such as heat sinks and thermal interface materials, ensuring that electronic devices operate within safe temperature ranges.It is chemically stable and resistant to corrosion, making it useful in harsh chemical environments, including those found in chemical processing plants and in certain types of semiconductor manufacturing processes.
Tantalum Silicide (TaSi2) Nanopowder Applications
Thermal Interface Materials: The good thermal conductivity of TaSi2 allows it to be used in thermal interface materials (TIMs) for efficient heat dissipation. It is particularly valuable in electronic packaging, where managing heat is critical to maintaining the performance and longevity of electronic components.
Wear-resistant Coatings: TaSi2‘s hardness and chemical stability make it suitable for wear-resistant coatings on tools and machinery parts, particularly those exposed to corrosive environments or high friction.
Thin-film Resistors: Its electrical properties are leveraged in the manufacturing of thin-film resistors, used in a variety of electronic circuits for precise control of resistance values, contributing to the miniaturization and performance improvement of electronic devices.
Photovoltaic Applications: TaSi2 is explored for use in photovoltaic applications, where its electrical and thermal properties could enhance the efficiency and durability of solar cells, especially in high-temperature environments.
Energy Conversion Devices: Its stability and conductivity make TaSi2 a candidate for use in high-temperature energy conversion devices, such as thermoelectric generators, which convert heat directly into electricity.