Molybdenum trioxide MoO3 granules use in thin film coating CAS 1313-27-5

Molybdenum trioxide MoO3 granules use in thin film coating CAS 1313-27-5

Model No.︰MoO3

Brand Name︰TYR

Country of Origin︰China

Unit Price︰US $ 200 / pc

Minimum Order︰1 pc

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Product Description

 

Molybdenum (MoO3) ceramic sputtering target material 

Purity: 99.9%

Color: White, gray Black

Shape: pieces, granules, rods, tablets

Spec.: 

Pellets: 10mm dia. X 5mm L e.t.c

Pieces, Granules: 1-6mm, 3-12mm e.t.c

 

Made sputtering targets method: hot pressing (HP) and vacuum melting, vacuum sintering

 

 

Molar mass: 143.95 g·mol−1
Appearance: yellow or light blue solid
Density: 4.69 g/cm3, solid
Melting point: 795 °C (1,463 °F; 1,068 K)
Boiling point: 1,155 °C (2,111 °F; 1,428 K) sublimes

Molybdenum trioxide  MoO3 is produced on the largest scale of any molybdenum compound. It occurs as the rare mineral molybdite. Its chief application is as an oxidation catalyst and as a raw material for the production of molybdenum metal.

Uses:
Molybdenum trioxide is used to manufacture molybdenum metal, which serves as an additive to steel and corrosion-resistant alloys. The relevant conversion entails treatment of MoO3 with hydrogen at elevated temperatures

It is also a component of the co-catalyst used in the industrial production of acrylonitrile by the oxidation of propene and ammonia.
Because of its layered structure and the ease of the Mo(VI)/Mo(V) coupling, MoO3 is of interest in electrochemical devices and displays. Molybdenum trioxide has also been suggested as a potential anti-microbial agent, e.g., in polymers. In contact with water, it forms H+ ions that can kill bacteria effectively. However, the issue of keeping the catalyst clean in an environment that would exploit such antimicrobial properties has not been explored.

 

 

We also supply below oxie ceramic sputtering targets material:

 

Material Name Formula Purity Form
Aluminum Oxide Al2O3 99.99% Ceramic, Crystal
Silicon Oxide SiO 99.9% Ceramic, Crystal
Silicon Dioxide SiO2 99.995% Ceramic, Crystal
Titanium Dioxide TiO2 99.99% Ceramic
Titanium Oxide Ti2O3 99.99% Ceramic, Crystal
Lanthanum Titanium Oxide LaTiO3 99.99% Ceramic
Zinc Oxide ZnO 99.99% Ceramic
Zirconium Oxide ZrO2 99.95% Ceramic
Titanium Oxide Ti4O7 99.99% Ceramic
Tin Oxide SnO 99.9% Ceramic
Iron Oxide Fe2O3 99.9% Ceramic
Strontium Titanate SrTiO3 99.9% Ceramic
Indium Tin Oxide ITO 99.99% Ceramic
Magnesium Oxide MgO 99.9% Ceramic, Crystal
Titanium Oxide TiO 99.99% Ceramic
Trititanium pentoxide Ti3O5 99.99% Ceramic, Crystal
Tantalum Pentoxide Ta2O5 99.99% Ceramic
Zirconium Titanium Oxide ZrO2-TiO2 99.9% Ceramic
Praseodymium Titanate PrTiO3 99.9% Ceramic
Zirconium Magnesium Oxide ZrO2-MgO 99.99% Ceramic
Zirconium Tantalum Oxide ZrO2-Ta2O5 99.99% Ceramic
Niobium Pentoxide Nb2O5 99.99% Ceramic
Tin Oxide SnO2 99.9% Ceramic
Barium Titanate BaTiO3 99.9% Ceramic

 

specification︰ Purity: 99.9%

Label︰ Molybdenum trioxide (MoO3) evaporation granules

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