Unlocking Ceftazidime Synthesis with a Key Intermediate
Discover the essential role of (Z)-2-Amino-alpha-[1-(tert-butoxycarbonyl)]-1-methylethoxyimino-4-thiazolacetic acid in pharmaceutical manufacturing.
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(Z)-2-Amino-alpha-[1-(tert-butoxycarbonyl)]-1-methylethoxyimino-4-thiazolacetic acid
This compound serves as a vital building block in the intricate process of synthesizing Ceftazidime, a broad-spectrum cephalosporin antibiotic. Its precise chemical structure and purity are paramount for ensuring the efficacy and safety of the final pharmaceutical product. Understanding the synthesis of Ceftazidime intermediate is crucial for pharmaceutical chemists.
- Introduction to the synthesis of Ceftazidime intermediate: This critical compound enables the efficient and reliable production of a widely used antibiotic.
- Chemical properties of 86299-47-0: Detailed specifications like molecular formula (C13H19N3O5S) and weight (329.37) highlight its role in complex organic reactions.
- Pharmaceutical use of CAS 86299-47-0: Its application in creating life-saving medications underscores its significance in the healthcare industry.
- Sourcing tert-butoxycarbonyl methylethoxyimino thiazolacetic acid: Reliable suppliers are key to maintaining production continuity for essential drugs.
Advantages of Utilizing This Intermediate
Enhanced Synthesis Efficiency
Employing this precisely engineered chemical intermediate, such as the amino thiazolacetic acid derivative, streamlines the production pathway for Ceftazidime, reducing reaction steps and improving yield.
Guaranteed Product Quality
Sourcing high-purity materials like CAS 86299-47-0 directly impacts the quality of the final antibiotic, ensuring it meets stringent pharmaceutical standards.
Reliable Supply Chain Support
Working with trusted manufacturers for chemical intermediates for antibiotics ensures a consistent and dependable supply, vital for meeting global healthcare demands.
Key Applications
Pharmaceutical Synthesis
This compound is a cornerstone in the multi-step synthesis of Ceftazidime, contributing essential functional groups for the final antibiotic structure.
Antibiotic Production
Its role as a precursor in the production of broad-spectrum antibiotics makes it indispensable for combating bacterial infections.
Organic Synthesis
As a versatile molecule, it can be a valuable starting material or intermediate in various other complex organic synthesis projects within the fine chemical sector.
Medical Research
Researchers exploring novel antibiotic derivatives or modifications may utilize this compound as a reference standard or building block in their studies.