Tributyltin Azide (CAS 17846-68-3): A Versatile Reagent for Organic Synthesis
Unlock complex organic transformations with this high-purity azide reagent.
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Tributyltin Azide
Tributyltin azide is a crucial organic synthesis reagent, enabling the precise introduction of tributyltin or azide functional groups into various organic molecules. Its utility extends to the synthesis of tetrazoles, which are vital intermediates in the development of pharmaceuticals such as angiotensin II receptor antagonists. This compound is recognized for its specific chemical properties that facilitate advanced organic synthesis procedures.
- Discover the benefits of using tributyltin azide as an organic synthesis reagent to substitute the tributyltin group into complex organic molecules.
- Learn how azide group organic molecules can be effectively synthesized using this chemical intermediate for advanced applications.
- Explore the critical role of tetrazole synthesis tributyltin azide plays in creating precursors for angiotensin II receptor antagonists.
- Understand the chemical synthesis of C12H27N3Sn and its importance as a high purity tributyltin azide.
Key Advantages
Synthetic Versatility
This compound serves as a highly effective organic synthesis reagent, allowing for the selective substitution of either the tributyltin or azide moiety, thereby expanding the scope of chemical transformations possible.
Pharmaceutical Intermediacy
Its critical role in the tetrazole synthesis pathway makes it an invaluable fine chemical intermediate, particularly for compounds like angiotensin II receptor antagonists, supporting pharmaceutical innovation.
Purity and Quality
With an assay of ≥95.0% and minimal water content (≤0.30%), it ensures reliable and consistent results in sensitive organic synthesis procedures.
Key Applications
Organic Synthesis
Used as a reagent to introduce specific functional groups, facilitating diverse organic chemical reactions and the creation of novel compounds.
Tetrazole Synthesis
A key building block for the synthesis of tetrazoles, which are essential in the pharmaceutical industry for drug development.
Pharmaceutical Intermediates
Serves as a precursor in the manufacturing of active pharmaceutical ingredients (APIs), particularly for cardiovascular medications.
Specialty Chemical Manufacturing
Its unique properties make it valuable in the production of other specialty chemicals requiring precise functionalization.