Trichloro(propyl)silane, identified by CAS number 141-57-1, is a fundamental organosilicon compound with a distinct profile of chemical properties that lend themselves to a wide array of industrial applications. As a colorless, clear liquid with a pungent odor, it is recognized for its high reactivity, particularly its susceptibility to hydrolysis upon exposure to moisture, which releases hydrochloric acid and forms silanol derivatives.

This reactivity is precisely what makes Trichloro(propyl)silane a valuable intermediate. It serves as a precursor for the synthesis of numerous other organosilicon compounds, including silanes and silicones, which are integral to the manufacturing of products like advanced coatings, robust adhesives, and durable sealants. The ability of these derived materials to withstand extreme temperatures, chemical exposure, and mechanical stress makes them indispensable in demanding environments.

Industrially, Trichloro(propyl)silane is often produced through meticulous synthesis routes that ensure high purity. For businesses seeking to integrate this chemical into their manufacturing processes, understanding its physical and chemical characteristics is paramount. The compound's flash point, density, and boiling point are critical parameters for safe handling, storage, and process design. Procurement professionals are advised to source from a reputable manufacturer to ensure consistent quality and adherence to safety standards.

When considering how to buy Trichloro(propyl)silane, it is beneficial to connect with established suppliers who can provide technical data and support. The availability of Trichloro(propyl)silane from global sources, including prominent ones in China, ensures a stable supply chain for industries relying on its unique properties. The price of Trichloro(propyl)silane can vary based on purity and order volume, making it important to obtain quotes from multiple qualified vendors.

In conclusion, Trichloro(propyl)silane is a cornerstone chemical in the organosilicon industry, enabling the creation of high-performance materials. Its careful synthesis, handling, and application are key to leveraging its full potential across various industrial sectors.