Tungsten Silicide Nanoparticles
Tungsten Silicide Nanoparticles
Tungsten Silicide Nanoparticles | |
Product No | NRE-5245 |
CAS No. | 12039-88-2 |
Formula | WSi2 |
Density | 9.3 g/cm³ |
APS | <100 nm (Can be Customized) |
Purity | 99.9% |
Form | Powder |
Molecular Weight | 240.011 g/mol |
Certificate Of Analysis | |
W | 76.5% |
Si | 23.4% |
Al | 0.02% |
Cr | 0.03% |
Ti | 0.02% |
S | 0.01% |
Mn | 0.01% |
Tungsten Silicide Nanoparticles
Tungsten Silicide Nanoparticles
Tungsten silicide (WSi₂) is a compound formed by the combination of tungsten and silicon in a 1:2 ratio. As a transition metal silicide, tungsten silicide has attracted significant attention in material science due to its excellent electrical conductivity, thermal stability, and mechanical properties. When reduced to the nanoparticle scale, tungsten silicide exhibits enhanced characteristics such as a high surface area, improved thermal and chemical stability, and enhanced catalytic activity compared to its bulk counterpart.
Tungsten silicide nanoparticles (WSi₂ nanoparticles) are particularly useful in a variety of high-performance applications that require durability, high-temperature resistance, and superior electronic properties. These nanoparticles are commonly employed in industries such as electronics, energy storage, catalysis, and aerospace, where materials with exceptional properties are essential.
Properties
High Electrical Conductivity: WSi₂ nanoparticles exhibit high electrical conductivity, making them ideal for use in electronic components, particularly those requiring efficient electron flow.
Thermal Stability: Tungsten silicide nanoparticles maintain their properties at high temperatures, making them suitable for applications in high-temperature environments, such as in aerospace and electronics.
Chemical Resistance: These nanoparticles show excellent chemical resistance, particularly to oxidation, making them valuable in harsh environments.
Mechanical Strength: Tungsten silicide is known for its hardness and strength, and these properties are enhanced at the nanoparticle level, which contributes to the durability of devices and components in which it is used.
Catalytic Properties: WSi₂ nanoparticles exhibit catalytic activity, particularly in reactions like hydrogenation and dehydrogenation, which are crucial in the chemical industry.