The Essential Role of tert-Butyl [[4-(2-pyridinyl)phenyl]methylene]hydrazinecarboxylate in Modern Pharmaceuticals
Discover the critical applications and properties of this vital chemical intermediate for Atazanavir production.
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tert-Butyl [[4-(2-pyridinyl)phenyl]methylene]hydrazinecarboxylate
This compound, identified by CAS Number 198904-84-6, serves as a crucial building block in the complex synthesis of Atazanavir, a significant antiretroviral medication. Its precise chemical structure (C17H19N3O2) and high purity (≥98%) make it indispensable for reliable pharmaceutical manufacturing, ensuring the efficacy and safety of the final drug product.
- The synthesis of Atazanavir relies heavily on high purity pharmaceutical intermediates like tert-Butyl [[4-(2-pyridinyl)phenyl]methylene]hydrazinecarboxylate, ensuring process consistency.
- Understanding the properties of C17H19N3O2 chemical intermediate is paramount for chemists involved in API development.
- Sourcing reliable pyridinyl phenyl derivative compounds is key to maintaining a stable supply chain for essential medicines.
- The transformation of tert-Butyl [[4-(2-pyridinyl)phenyl]methylene]hydrazinecarboxylate into Atazanavir highlights its importance in bridging raw materials to finished pharmaceuticals.
Advantages Offered by the Product
Ensured Purity and Quality
With a guaranteed purity of ≥98%, this white crystalline powder minimizes impurities in downstream synthesis, a critical factor for pharmaceutical synthesis building blocks.
Critical Role in Atazanavir Production
As a key intermediate for Atazanavir synthesis, its availability and quality directly impact the production of vital HIV treatments.
Versatile Building Block
The distinct chemical structure of this hydrazinecarboxylate derivative makes it a valuable component in various organic synthesis pathways within the chemical industry.
Key Applications
Pharmaceutical Manufacturing
Essential for the synthesis of Atazanavir, contributing directly to the production of critical antiviral medications. This makes it a vital component for API manufacturing raw materials.
Organic Chemistry Research
Serves as a versatile starting material or intermediate in academic and industrial research for novel compound development. Researchers often seek such specialized chemical intermediate sourcing options.
Process Development
Its well-defined properties facilitate the optimization of synthetic routes for complex molecules, aiding in efficient specialty chemical synthesis.
Drug Discovery
Provides a foundational structure for exploring new chemical entities and potential therapeutic agents within the broader field of HIV drug manufacturing.