Unlock the Potential: Your Guide to 4-Fluoro-alpha-(2-methyl-1-oxopropyl)-gamma-oxo-N,beta-diphenylbenzene Butaneamide
Discover the critical Atorvastatin intermediate, its properties, and applications in advanced chemical synthesis.
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4-Fluoro-alpha-(2-methyl-1-oxopropyl)-gamma-oxo-N,beta-diphenylbenzene butaneamide
This compound, identified by CAS 125971-96-2, is a crucial intermediate in the complex synthesis pathways for pharmaceuticals, most notably as a precursor to Atorvastatin. Its precise molecular structure (C26H24FNO3) and properties make it invaluable for creating high-purity active pharmaceutical ingredients.
- Discover the critical role of this compound in Atorvastatin synthesis, a key application for pharmaceutical intermediate manufacturers.
- Explore the 4-Fluoro-alpha-(2-methyl-1-oxopropyl)-gamma-oxo-N,beta-diphenylbenzene butaneamide suppliers to ensure a reliable source for your production needs.
- Understand the importance of its C26H24FNO3 molecular structure for achieving desired chemical reaction outcomes.
- Learn about the white powder chemical properties that dictate its handling and processing in various industrial settings.
Key Advantages
Purity and Precision
Ensuring high purity is paramount for pharmaceutical intermediate applications, directly impacting the efficacy and safety of the final drug product. The precise molecular structure contributes to successful synthesis.
Versatile Intermediate
As a vital component in Atorvastatin synthesis, this chemical serves as a cornerstone for producing a critical medication used globally for managing cholesterol levels.
Chemical Synthesis Backbone
With its well-defined molecular formula (C26H24FNO3), this compound provides a robust foundation for complex chemical synthesis, enabling the creation of intricate molecular architectures.
Key Applications
Pharmaceutical Synthesis
Its primary application lies in the synthesis of Atorvastatin, a vital component in cardiovascular health management, showcasing its importance in the pharmaceutical sector.
Advanced Organic Chemistry
Researchers and chemists utilize this compound in advanced organic chemistry for developing new synthetic routes and exploring novel molecular entities.
Fine Chemical Manufacturing
As a fine chemical, it is manufactured under strict quality controls for use in specialized industrial processes requiring high purity and specific chemical properties.
Drug Discovery and Development
Its role as an intermediate in drug synthesis makes it relevant for drug discovery and development programs aiming to create new therapeutic agents.