6-Aminopenicillanic Acid CAS 551-16-6: A Key Intermediate in Pharmaceutical Manufacturing
Discover the vital role of 6-APA in creating advanced pharmaceutical compounds and electronic chemicals.
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6-Aminopenicillanic Acid
6-Aminopenicillanic Acid (6-APA), identified by CAS 551-16-6, is a fundamental building block in the synthesis of a wide range of semi-synthetic penicillins, making it indispensable in the pharmaceutical industry. Its chemical structure and purity are critical for the efficacy and safety of the final drug products.
- Understanding the crucial role of 6-APA manufacturers is key for securing a reliable supply chain for essential antibiotics.
- Exploring the chemical properties of 6-APA, including its molecular weight of 216.25, aids in precise application in synthesis.
- Sourcing 6-APA from trusted suppliers ensures the quality required for pharmaceutical intermediates.
- The product's appearance as a white to cream fine powder is an initial indicator of its quality and grade.
Key Advantages Provided
Versatile Pharmaceutical Intermediate
As a primary pharmaceutical intermediate, 6-APA enables the creation of diverse penicillin derivatives, addressing various bacterial infections and showcasing its value for 6-Aminopenicillanic acid applications.
Essential for Antibiotic Production
The availability of high-quality 6-APA is directly linked to the production capacity of critical antibiotics, underscoring its importance in public health and the demand for 6-APA price transparency.
Application in Electronic Chemicals
Beyond pharmaceuticals, 6-APA finds utility in photoresist chemicals, demonstrating its versatility and importance as a fine chemical for specialized industries.
Key Applications
Pharmaceutical Synthesis
The primary use of 6-APA is as a core component in the synthesis of semi-synthetic penicillins, a critical area for 6-Aminopenicillanic acid manufacturers.
Antibiotic Development
It serves as a foundational material for developing new and improved antibiotics to combat evolving microbial resistance, a key focus for 6-APA suppliers.
Photoresist Chemicals
Its unique properties also lend themselves to applications within the electronic chemicals sector, specifically in the formulation of photoresists.
Research and Development
Researchers utilize 6-APA in various R&D projects exploring novel chemical synthesis routes and materials.