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Ferric Silicide Powder

Ferric Silicide Powder

Ferric Silicide Powder
Product No NRE-11093
CAS No. 12022-99-0
Formula FeSi2
Density 4.74 g/cm3
APS <40µm (Can be Customized)
Purity 99.9%
Form Powder
Molecular Weight 112.016 g/mol


Certificate Of Analysis
Fe 49.8%
Si 50.1%
Co 0.02%
S 0.03%
O 0.02%
Sn 0.01%
W 0.01%

Ferric Silicide Powder

Ferric silicide powder, commonly known as iron silicide, is a compound consisting of iron and silicon. It has several applications in various fields due to its unique properties. Some of the notable applications of ferric silicide powder include:

Semiconductor Industry: Iron silicide is used in the semiconductor industry as a material for the fabrication of electronic devices. It is employed as a source of iron and silicon for the production of integrated circuits and other electronic components.

Thermoelectric Materials: Ferric silicide has been investigated for its potential use in thermoelectric applications. Its ability to convert heat into electricity and vice versa makes it a promising candidate for thermoelectric devices used in power generation and temperature control systems.

Photovoltaic Devices: Iron silicide has also shown potential for use in photovoltaic devices. It can be used as a material for thin-film solar cells, which convert sunlight into electricity. Research is ongoing to explore its efficiency and suitability for solar energy applications.

Ceramics and Refractory Materials: Ferric silicide can be used as an additive in ceramics and refractory materials to enhance their mechanical and thermal properties. It can improve the strength, hardness, and resistance to high temperatures of ceramics, making them suitable for various industrial applications.

Metal Additive Manufacturing: Iron silicide can be used as a precursor material in metal additive manufacturing processes, such as selective laser sintering and powder bed fusion. Its unique properties make it a potential candidate for the production of complex metal parts and components with specific mechanical and thermal characteristics.

Catalysts: Ferric silicide has been studied for its potential as a catalyst in various chemical reactions. It can be used to accelerate or control the rate of chemical reactions in industrial processes, such as petrochemical refining, and in the production of specialty chemicals.

Magnetic Materials: Iron silicide has magnetic properties that make it suitable for use in magnetic storage media and magnetic sensors. It can be used in the development of magnetic recording devices, magnetic sensors, and other magnetic-based technologies.