Tributylphenyltin (CAS 960-16-7) is a valuable organometallic compound that plays a significant role in various aspects of chemical synthesis. Its unique chemical structure, featuring a tin atom bonded to three butyl groups and a phenyl group, makes it a versatile reagent and intermediate for R&D scientists and product formulators. Understanding its properties and applications is key for B2B buyers seeking to optimize their synthetic processes.

1. As an Organometallic Reagent

One of the primary uses of Tributylphenyltin is as an organometallic reagent in cross-coupling reactions. These reactions are fundamental in organic chemistry for forming carbon-carbon bonds, which are essential for constructing complex molecules. For instance, it can participate in reactions like Stille coupling, where it reacts with organohalides in the presence of a palladium catalyst to form new C-C bonds. This capability makes it an indispensable component for synthesizing pharmaceuticals, agrochemicals, and advanced materials.

2. In the Synthesis of Specialty Chemicals

Tributylphenyltin serves as a crucial building block in the synthesis of various specialty chemicals. Its phenyl group can be further functionalized, or the tin moiety can be leveraged for specific catalytic or derivatization purposes. Manufacturers looking to develop new chemical entities often rely on such organotin compounds for their unique reactivity. When you buy Tributylphenyltin, you are acquiring a key material for bespoke chemical manufacturing.

3. As a Precursor for Other Organotin Compounds

This compound can also act as a precursor for synthesizing other organotin derivatives. By carefully controlled reactions, the butyl or phenyl groups can be modified or replaced, leading to a range of specialized organotin compounds with tailored properties. This versatility allows researchers and formulators to explore a broader spectrum of chemical possibilities.

4. Role in Catalysis Research

Organotin compounds, including Tributylphenyltin, are sometimes explored for their catalytic properties. While specific applications might be niche, their potential in facilitating certain organic transformations makes them subjects of ongoing research. For businesses involved in catalyst development, sourcing high-purity Tributylphenyltin from a reliable supplier is a prerequisite for successful experimentation.

5. Purity and Sourcing Considerations

When sourcing Tributylphenyltin for any synthetic application, high purity is non-negotiable. Manufacturers like NINGBO INNO PHARMCHEM CO.,LTD. emphasize purity levels of 98% and above, ensuring that the reagent performs reliably in sensitive reactions. As a potential buyer, always seek out suppliers who provide detailed technical specifications and Certificates of Analysis. This diligence ensures that the product you purchase meets the stringent demands of modern chemical synthesis, from laboratory research to industrial production. Engaging with a reputable manufacturer in China can offer competitive pricing and a stable supply of this essential organometallic intermediate.