Hexabutylditin (CAS 813-19-4): A Versatile Reagent for Organic Synthesis and Chemical Innovations
Unlock advanced chemical transformations with high-purity Hexabutylditin, your key to innovative synthesis.
Get a Quote & SampleProduct Core Value
Hexabutylditin
Hexabutylditin, identified by CAS 813-19-4, is a crucial organotin compound. It is primarily utilized as a reagent for the alkyl stannized aryl halide synthesis, playing a vital role in creating complex organic molecules. Its effectiveness extends to significant deoxygenation and desulfurization reactions, making it indispensable in various chemical processes.
- Discover the power of palladium-catalyzed tin-carbon bond formation with Hexabutylditin, a cornerstone for sophisticated chemical structures.
- Leverage Hexabutylditin as a reliable source of tributylstannyl radicals in organic synthesis, enabling precise reaction pathways.
- Benefit from Hexabutylditin's utility in the radioiodination of styrlpyridines and its application in Stille coupling reactions, enhancing synthetic efficiency.
- Ensure high-quality outcomes with Hexabutylditin's purity exceeding 95.0%, ideal for demanding research and industrial applications.
Advantages of Hexabutylditin
Enhanced Synthetic Pathways
Hexabutylditin facilitates advanced palladium-catalyzed tin-carbon bond formation, opening doors to novel molecular architectures and efficient synthetic routes.
Versatile Reaction Capabilities
The compound excels in deoxygenation and desulfurization reactions, demonstrating its broad applicability across different chemical transformations and industries.
Radical Chemistry Precision
As a key tributylstannyl radical source, Hexabutylditin allows for controlled radical reactions, crucial for stereoselective synthesis and complex molecule assembly.
Key Applications
Organic Synthesis
Hexabutylditin is essential for various organic synthesis procedures, particularly those involving organometallic intermediates and carbon-carbon bond formation.
Catalysis
Its role in palladium-catalyzed reactions highlights its importance as a co-catalyst or reagent in promoting efficient chemical transformations.
Stille Coupling
Hexabutylditin serves as a critical reagent for Stille coupling, a widely used cross-coupling reaction for forming carbon-carbon bonds with organostannanes.
Radioiodination
The compound finds specific use in the radioiodination of styrlpyridines, an important process in radiochemistry and medical imaging applications.