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Hafnium silicide
CAS:12401-56-8
Product name MF Product No Purity Specifications CAS SP Download operation
Hafnium silicide powder HfSi2 7206004 95 % 200 nm 12401-56-8 Download Inquiry
Hafnium silicide powder HfSi2 7206003 99 % 0.6 μm 12401-56-8 Download Inquiry
Hafnium silicide powder HfSi2
Hafnium silicide powder HfSi2 7206006 99 % 5 - 10 μm 12401-56-8 Download Inquiry

Hafnium silicide


Basic information

 

Hafnium silicide is an inorganic substance, belonging to transition metal silicide, with the chemical formula of HfSi2 (isomer)

Characteristics of hafnium silicide: preparation of zirconium silicide by spark discharge plasma sintering. In addition, hafnium silicide nanomaterials have potential applications in the field of catalysis. Hafnium silicide products are characterized by high purity, small particle size, uniform distribution, large specific surface area and high surface activity.


Product Description


Hafnium silicide is a kind of transition metal silicide, which is a kind of refractory intermetallic compound. Due to its unique physical and chemical properties, it has been successfully used in complementary metal oxide semiconductor devices, film coatings, block structure modules, electric heating elements, thermoelectric materials, photovoltaic materials and other fields. (1) Hafnium silicide is most commonly used in ceramic materials to manufacture various high-temperature components and functional components;

(2) It can prepare silicon carbide hafnium silicide tantalum silicide (SiC – HfSi2 – TaSi2) ablation resistant composite coating carbon fiber reinforced carbon (C/C) composites, which can be used for gas turbine engine structural components, nose cone cap of space shuttle, wing leading edge, etc. These components are mostly working under high temperature and oxygenation environment.;

(3) An organic electroluminescent device can be prepared. The package cover encapsulates the light emitting layer and cathode on the anode. The package cover includes a silicon nitride layer and a barrier layer formed on the surface of the silicon nitride layer;

(4) A silicon germanium alloy based thermoelectric element can be prepared. The interfaces in the silicon germanium alloy based thermoelectric element are well bonded, no cracks and obvious diffusion phenomenon are found at the interface, the contact resistance is small, the thermal contact state is good, and it can withstand a long time of high temperature accelerated test;

(5) Prepare a high-temperature and oxidation resistant metal ceramic composite coating, which is characterized in that the coating is composed of refractory metals, refractory carbides and intermetallic compounds, and the coating thickness is 10 μ m~50 μ m;


Product parameters

The product name

Hafnium silicide

Density

8.02 g/cm 3

Coefficient of thermal expansion

-

Molecular formula


HfSi2

Melting point

1680℃

Mohs hardness

-

Appearance form

Gray metal powder

Boiling point

Cat760mmHg

Microhardness

-

CAS number

12070-14-3

Resistivity

-

Storage mode

-

Molecular weight

242.62

Electrical conductivity

-

-

-


 

At present, the factory can produce products with different particle sizes, such as nanometer level, submicron level and micrometer level. The products that have been industrialized are 0.6 μ m、0.8 μ m、5-10 μ m、200 μ m. Both can be provided at tonnage level, and can be customized according to other granularity of customers. Packaging specifications can be customized according to the customer's feeding quantity.


Further reading

Their nanomaterials show special electrical, optical, magnetic and thermoelectric properties, and even have potential application value in the field of catalysis. However, traditional preparation methods such as metallurgical methods or physical methods cannot meet the requirements for the preparation of transition metal silicide nanomaterials. Therefore, it is very important to find a simple, controllable and universally applicable preparation method for the wide application of transition metal silicide nanomaterials.


Related papers

[1] Li Shuping, Li Kezhi and Guo Lingjun Carbon/carbon composite SiC – HfSi2 – TaSi2 ablation resistant composite coating [D], two thousand and nine

[2] CN201310386247.7 organic light-emitting device and its preparation method

[3] CN201610209315.6 A silicon germanium alloy based thermoelectric element and its preparation method

[4] CN201210246195.9 A high temperature resistant and oxidation resistant cermet composite coating and its preparation method


Product Showcase


Recommended product I: hafnium silicide 7206004 particle size 1 μ m


 


 

Foxman product test report: XRD spectrum, SEM scanning electron microscope, laser particle size diagram

 

       

 

 


 

 

 


Recommended product 2: Hafnium silicide 4004016, particle size 0.8 μ m



Product test report: SEM

 


Product packaging

 


 

 


 Product purchase Q&A

Q: We are used in the laboratory. Do you have small package products?

A: Yes, we generally have packaging specifications such as 100g/250g/500g/1kg to meet the needs of laboratory research users.

Q: I think some companies provide 99.9% products. Why don't you have such high-purity products?

A: The purity of the product is determined by many factors, such as raw materials, production technology and testing methods. Different detection methods are aimed at the same material, and the purity may vary greatly. In addition to focusing on purity, you need to know what the purity detection method is to judge the reliability of the purity. It is very likely that the actual purity of the 98% purity product is similar to that of the 99.9% purity product.