Silane: Difference between revisions

Silane is a chemical compound with the formula SiH₄. It is the simplest silicon hydride and is a colourless, flammable gas with a sharp, repulsive smell, somewhat similar to that of acetic acid. Silane is of significant importance in the production of semiconductors, as it is used in the deposition of thin films of silicon in various technology and electronics applications.

Properties[edit]

Silane is a single-component silicon compound that is highly reactive with oxygen and water, leading to its use in applications requiring the formation of silicon-containing films or structures via chemical methods. Its boiling point is −112 °C, and it has a melting point of −185 °C. Silane can spontaneously ignite in air, reacting with oxygen to form silicon dioxide (SiO₂) and water (H₂O), releasing energy in the process.

Production[edit]

Silane is typically produced by the reaction of silicon with hydrogen chloride at high temperatures, a process that also yields tetrachlorosilane (SiCl₄) as a byproduct. The tetrachlorosilane is then reduced with hydrogen gas in the presence of a catalyst to produce silane and hydrochloric acid (HCl). This method is known as the Müller-Rochow process.

Applications[edit]

The primary use of silane is in the electronics industry, where it serves as a source of silicon for the deposition of silicon-based films and structures. This includes the fabrication of microelectronics, such as integrated circuits (ICs) and semiconductor devices, through processes like chemical vapor deposition (CVD). Silane is also used in the production of solar panels, where it contributes to the formation of silicon-based photovoltaic cells.

In addition to its role in electronics, silane is used as a coating agent to improve the adhesion of plastics to metals, and as a protective coating for glass and ceramics to enhance their resistance to water and other environmental factors.

Safety[edit]

Due to its flammability and potential for spontaneous ignition in air, handling silane requires strict safety precautions. Storage and use of silane should be conducted under inert atmospheres or vacuum conditions to prevent accidental exposure to air. Safety equipment, including fire extinguishers and personal protective equipment (PPE), should be readily available when working with silane.

See also[edit]

• Silicon
• Chemical vapor deposition
• Müller-Rochow process
• Semiconductor

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Silane[edit]

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  Silane 2D structure
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  Container in Japan