|
| MOQ: | 1kg |
| Price: | US $ 1/kg |
| Standard Packaging: | Cylinder/Tank |
| Delivery Period: | 15 days |
| Payment Method: | L/C, T/T |
| Supply Capacity: | 50000kg/month |
Silane refers to a group of chemical compounds containing silicon and hydrogen atoms. The most common and simplest form of silane is monosilane (SiH4). Here are some key points about silane:
Structure: Silane compounds consist of a silicon atom bonded to hydrogen atoms. Monosilane (SiH4) has a tetrahedral structure, with the silicon atom at the center and four hydrogen atoms surrounding it.
Properties: Silane is a colorless, flammable gas with a pungent odor. It is less dense than air and can form explosive mixtures with air when exposed to certain conditions. Silane is highly reactive and can react with oxygen, water, and other compounds.
Production: Silane can be produced through various methods, including the reaction of silicon with hydrogen or the decomposition of silicon-containing compounds. Industrial-scale production of silane often involves the reaction of metallurgical-grade silicon with hydrogen chloride.
Applications: Silane has several applications in various industries:
Semiconductor Industry: Silane is used as a precursor in the production of silicon-based materials, such as silicon wafers and thin-film silicon solar cells. It is an important source of silicon for the deposition of amorphous and polycrystalline silicon films.
Chemical Industry: Silane derivatives are used as coupling agents and adhesion promoters in the formulation of coatings, adhesives, and sealants. They can improve the bonding between different materials, such as glass, metal, and plastics.
Electronics Industry: Silane is utilized in the manufacturing of electronic components, such as integrated circuits and flat-panel displays. It is involved in the deposition of silicon-based thin films for insulation and passivation purposes.
Solar Energy: Silane is employed in the production of silicon-based photovoltaic cells, which are used to convert sunlight into electricity.
It's worth noting that silane is a highly reactive and potentially hazardous compound, requiring careful handling and storage due to its flammability and reactivity.
| DOT Class | 2.1 | Un No | 2203 |
| Cylinder Standard | GB/ISO/DOT | Cylinder Pressure | 15MPa/20MPa |
| Valve | Diss632 | Melting Point | -185 ºC |
| Appearance | Colorless, Garlic Smell | Boiling Point | -112 ºC |
| Density | 1.34 Kg/m³ | Molecular Weight | 32.117 |
| Transport Package | 47L/440L/ISO Tank | Specification | 99.9999% |
| Trademark | CMC | Origin | China |
| HS Code | 2931900090 | Production Capacity | 20, 000tons/Year |
Specification:
CAS No.: 7803-62-5
EINECS No.: 232-263-4
UN No.: UN2203
Purity: 99.9999%
Dot Class: 2.1
Appearance: Colorless
Grade Standard: Electronic Grade
|
|
| MOQ: | 1kg |
| Price: | US $ 1/kg |
| Standard Packaging: | Cylinder/Tank |
| Delivery Period: | 15 days |
| Payment Method: | L/C, T/T |
| Supply Capacity: | 50000kg/month |
Silane refers to a group of chemical compounds containing silicon and hydrogen atoms. The most common and simplest form of silane is monosilane (SiH4). Here are some key points about silane:
Structure: Silane compounds consist of a silicon atom bonded to hydrogen atoms. Monosilane (SiH4) has a tetrahedral structure, with the silicon atom at the center and four hydrogen atoms surrounding it.
Properties: Silane is a colorless, flammable gas with a pungent odor. It is less dense than air and can form explosive mixtures with air when exposed to certain conditions. Silane is highly reactive and can react with oxygen, water, and other compounds.
Production: Silane can be produced through various methods, including the reaction of silicon with hydrogen or the decomposition of silicon-containing compounds. Industrial-scale production of silane often involves the reaction of metallurgical-grade silicon with hydrogen chloride.
Applications: Silane has several applications in various industries:
Semiconductor Industry: Silane is used as a precursor in the production of silicon-based materials, such as silicon wafers and thin-film silicon solar cells. It is an important source of silicon for the deposition of amorphous and polycrystalline silicon films.
Chemical Industry: Silane derivatives are used as coupling agents and adhesion promoters in the formulation of coatings, adhesives, and sealants. They can improve the bonding between different materials, such as glass, metal, and plastics.
Electronics Industry: Silane is utilized in the manufacturing of electronic components, such as integrated circuits and flat-panel displays. It is involved in the deposition of silicon-based thin films for insulation and passivation purposes.
Solar Energy: Silane is employed in the production of silicon-based photovoltaic cells, which are used to convert sunlight into electricity.
It's worth noting that silane is a highly reactive and potentially hazardous compound, requiring careful handling and storage due to its flammability and reactivity.
| DOT Class | 2.1 | Un No | 2203 |
| Cylinder Standard | GB/ISO/DOT | Cylinder Pressure | 15MPa/20MPa |
| Valve | Diss632 | Melting Point | -185 ºC |
| Appearance | Colorless, Garlic Smell | Boiling Point | -112 ºC |
| Density | 1.34 Kg/m³ | Molecular Weight | 32.117 |
| Transport Package | 47L/440L/ISO Tank | Specification | 99.9999% |
| Trademark | CMC | Origin | China |
| HS Code | 2931900090 | Production Capacity | 20, 000tons/Year |
Specification:
CAS No.: 7803-62-5
EINECS No.: 232-263-4
UN No.: UN2203
Purity: 99.9999%
Dot Class: 2.1
Appearance: Colorless
Grade Standard: Electronic Grade
