Dodecylbenzenesulfonyl Azide (CAS 79791-38-1): A Versatile Intermediate for Pharmaceutical Synthesis
Discover the critical role of this alkane derivative as a key synthetic intermediate in creating advanced pharmaceutical compounds.
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Dodecylbenzenesulfonyl Azide
Dodecylbenzenesulfonyl Azide is a crucial organic compound extensively utilized as a synthetic intermediate within the pharmaceutical chemical sector. Its unique chemical structure makes it invaluable for creating complex molecules required in drug manufacturing, contributing significantly to the development of new therapeutics.
- Leverage the unique properties of Dodecylbenzenesulfonyl Azide as a synthetic intermediate for pharmaceutical chemicals, facilitating complex organic synthesis pathways.
- Ensure high purity with an assay of at least 97%, guaranteeing reliable performance in your sensitive manufacturing processes.
- Benefit from its low water content (≤0.5%), which is vital for maintaining reaction integrity and product quality.
- Utilize this alkane derivative as a key building block in developing novel pharmaceutical compounds and fine chemical products.
Key Advantages
Enhanced Synthetic Efficiency
As a vital synthetic intermediate for pharmaceutical chemicals, this compound streamlines complex molecular construction, improving overall manufacturing efficiency.
Consistent Product Quality
With a guaranteed high assay and low water content, the product supports consistent quality in your final pharmaceutical products.
Versatile Chemical Building Block
Its structure as an alkane derivative and potential sulfonamide precursor offers broad utility across various organic synthesis applications.
Key Applications
Pharmaceutical Synthesis
Essential as a synthetic intermediate for pharmaceutical chemicals, aiding in the creation of active pharmaceutical ingredients (APIs).
Organic Synthesis
Serves as a valuable building block for a wide range of organic reactions, contributing to the synthesis of complex organic molecules.
Fine Chemical Manufacturing
Its properties make it suitable for fine chemical production, where precise molecular structures are paramount.
Research and Development
A key compound for researchers exploring new synthetic routes and developing novel chemical entities.