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| MOQ: | 1L |
| Price: | Us $50000/L |
| Standard Packaging: | Cylinder/Tank |
| Delivery Period: | 15 days |
| Payment Method: | L/C, T/T |
| Supply Capacity: | 50000L/Year |
Disilane (Si2H6) is an inorganic compound composed of two silicon (Si) atoms bonded to six hydrogen (H) atoms. It is a member of the silane family of compounds and is a silicon analogue of ethane (C2H6). Here are some key points about disilane gas:
Structure and Properties: Disilane consists of two silicon atoms bonded together with six hydrogen atoms. It has a tetrahedral molecular structure. Disilane is a colorless gas with a pungent odor. It is highly reactive and can spontaneously ignite in the presence of air or oxygen.
Synthesis and Production: Disilane can be produced by various methods, including the reaction of silicon powder with hydrogen gas at high temperatures or through the hydrolysis of silicon-derived precursors. It is typically synthesized and used in a controlled environment due to its reactivity and flammability.
Applications:
Semiconductor Industry: Disilane is primarily used as a precursor gas in the production of silicon thin films for the semiconductor industry. It serves as a source of silicon in processes such as chemical vapor deposition (CVD) and atomic layer deposition (ALD), where it is used to deposit high-quality silicon layers on substrates.
Solar Cells: Disilane is employed as a precursor gas in the fabrication of silicon thin-film solar cells. It enables the deposition of amorphous silicon films, which are used to create low-cost and flexible solar cell devices.
Chemical Synthesis: Disilane can be used as a reducing agent or as a source of silicon in various chemical reactions. It finds applications in the synthesis of organosilicon compounds, silicon-based polymers, and other silicon-containing materials.
Safety Considerations: Disilane is highly flammable and can form explosive mixtures with air. It is also toxic and can cause severe burns upon contact with the skin or eyes. Due to its reactivity and hazards, disilane should be handled with extreme caution, and appropriate safety measures, including proper ventilation and personal protective equipment, should be followed.
Disilane gas plays a significant role in the semiconductor industry and the production of silicon-based materials. It is a key component in the manufacturing of advanced electronic devices, solar cells, and other silicon-related applications.
| Model No: | Si2H6 | Transport Package | Y-Cylinder |
| Specification: | 47L/10kg | Trademark | CMC |
| Origin: | Suzhou | HS Code | 2812190091 |
| Production Capacity: | Suzhou, China |
Specification:
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|
| MOQ: | 1L |
| Price: | Us $50000/L |
| Standard Packaging: | Cylinder/Tank |
| Delivery Period: | 15 days |
| Payment Method: | L/C, T/T |
| Supply Capacity: | 50000L/Year |
Disilane (Si2H6) is an inorganic compound composed of two silicon (Si) atoms bonded to six hydrogen (H) atoms. It is a member of the silane family of compounds and is a silicon analogue of ethane (C2H6). Here are some key points about disilane gas:
Structure and Properties: Disilane consists of two silicon atoms bonded together with six hydrogen atoms. It has a tetrahedral molecular structure. Disilane is a colorless gas with a pungent odor. It is highly reactive and can spontaneously ignite in the presence of air or oxygen.
Synthesis and Production: Disilane can be produced by various methods, including the reaction of silicon powder with hydrogen gas at high temperatures or through the hydrolysis of silicon-derived precursors. It is typically synthesized and used in a controlled environment due to its reactivity and flammability.
Applications:
Semiconductor Industry: Disilane is primarily used as a precursor gas in the production of silicon thin films for the semiconductor industry. It serves as a source of silicon in processes such as chemical vapor deposition (CVD) and atomic layer deposition (ALD), where it is used to deposit high-quality silicon layers on substrates.
Solar Cells: Disilane is employed as a precursor gas in the fabrication of silicon thin-film solar cells. It enables the deposition of amorphous silicon films, which are used to create low-cost and flexible solar cell devices.
Chemical Synthesis: Disilane can be used as a reducing agent or as a source of silicon in various chemical reactions. It finds applications in the synthesis of organosilicon compounds, silicon-based polymers, and other silicon-containing materials.
Safety Considerations: Disilane is highly flammable and can form explosive mixtures with air. It is also toxic and can cause severe burns upon contact with the skin or eyes. Due to its reactivity and hazards, disilane should be handled with extreme caution, and appropriate safety measures, including proper ventilation and personal protective equipment, should be followed.
Disilane gas plays a significant role in the semiconductor industry and the production of silicon-based materials. It is a key component in the manufacturing of advanced electronic devices, solar cells, and other silicon-related applications.
| Model No: | Si2H6 | Transport Package | Y-Cylinder |
| Specification: | 47L/10kg | Trademark | CMC |
| Origin: | Suzhou | HS Code | 2812190091 |
| Production Capacity: | Suzhou, China |
Specification:
