2-Amino-6-fluoro-N-phenylbenzamide: A Vital Pharmaceutical Intermediate
Unlock the potential of advanced drug synthesis with this key building block.
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2-Amino-6-fluoro-N-phenylbenzamide
This compound is a critical intermediate in the synthesis of Idelalisib, a significant pharmaceutical agent. Its precise chemical structure and high purity make it indispensable for ensuring the efficacy and safety of the final drug product. We offer reliable sourcing for this essential compound.
- High-purity 2-amino-6-fluoro-N-phenylbenzamide is essential for efficient Idelalisib synthesis, ensuring minimal impurities in the final API.
- Explore the application of pharmaceutical intermediates in developing cutting-edge treatments.
- Discover trusted 2-amino-6-fluoro-N-phenylbenzamide suppliers for your research and manufacturing needs.
- Leverage our expertise in chemical synthesis to procure high-quality building blocks like 2-amino-6-fluoro-N-phenylbenzamide.
Key Advantages
Purity and Quality Assurance
Benefit from rigorous quality control, ensuring that our CAS 1417456-04-2 meets stringent industry standards for your drug development projects.
Strategic Synthesis Role
As a vital component in Idelalisib intermediate production, its availability and quality directly impact the manufacturing pipeline.
Reliable Supply Chain
Count on consistent access to this essential chemical, supported by dependable 2-amino-6-fluoro-N-phenylbenzamide suppliers.
Key Applications
Pharmaceutical Synthesis
Essential for the step-by-step construction of complex pharmaceutical molecules like Idelalisib, driving therapeutic innovation.
Medicinal Chemistry Research
A valuable compound for researchers exploring new drug candidates and understanding structure-activity relationships in medicinal chemistry.
API Manufacturing
Plays a direct role in the large-scale production of Active Pharmaceutical Ingredients (APIs), ensuring product integrity.
Fine Chemical Sector
Contributes to the broader fine chemical industry by providing high-value intermediates for various complex synthesis pathways.