Hexabutylditin (CAS 813-19-4): Your Key Organometallic Reagent
Discover the essential properties, versatile applications, and safe handling of Hexabutylditin for your advanced chemical synthesis needs.
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Hexabutylditin
Hexabutylditin (CAS 813-19-4) stands out as a critical organometallic compound in modern organic synthesis. Its primary function is as a reagent for the stannylation of aryl halides and for the preparation of functionalized arylstannates through palladium-catalyzed cross-coupling reactions. This compound's stability at room temperature and pressure makes it a reliable choice for various synthetic pathways. Ensuring proper storage conditions, such as in the presence of dry inert gases and in a sealed container in a cool, dry place, is vital for maintaining its integrity and efficacy.
- Hexabutylditin applications showcase its versatility in complex organic transformations, making it invaluable for researchers and manufacturers alike.
- The ability of Hexabutylditin (CAS 813-19-4) to participate in palladium-catalyzed cross-coupling reactions significantly enhances its utility in pharmaceutical and materials science research.
- As a key stannylation reagent, it facilitates the introduction of tin moieties, which are precursors to various carbon-tin bonds essential for further synthetic elaborations.
- Understanding the safe handling and storage of this organotin compound is paramount to ensuring experimental success and laboratory safety, highlighting the importance of consulting its Material Safety Data Sheet (MSDS).
Key Advantages
Synthetic Versatility
The use of Hexabutylditin as a stannylation reagent opens up numerous avenues in creating complex organometallic intermediates, crucial for drug discovery and advanced material development.
Catalytic Efficiency
Its role in palladium-catalyzed cross-coupling reactions means it can be used efficiently to forge crucial C-Sn bonds, advancing research in areas like Suzuki-Miyaura and Stille couplings.
Stability and Handling
While sensitive to air and moisture, its general stability at room temperature and clear liquid form when properly stored make it manageable for laboratory and industrial applications, contributing to its appeal for those seeking to buy Hexabutylditin.
Key Applications
Stannylation of Aryl Halides
Hexabutylditin is extensively employed to introduce tributylstannyl groups onto aryl halides, a fundamental step in many cross-coupling synthetic routes, underscoring its importance for those researching aryl halide stannylation.
Preparation of Arylstannates
This organotin compound serves as a precursor for synthesizing functionalized arylstannates, which are key intermediates in the creation of complex organic molecules with diverse applications.
Organic Synthesis Reagent
As a versatile reagent, it plays a crucial role in various organic transformations, facilitating the formation of new carbon-carbon and carbon-heteroatom bonds, thus aiding in the exploration of new chemical entities.
Research and Development
In R&D settings, Hexabutylditin is an indispensable tool for chemists exploring novel synthetic methodologies and developing new materials or pharmaceuticals, often sought by those looking to buy Hexabutylditin for specific research projects.