The journey from chemical compound to life-saving medication is a testament to precision and expertise in pharmaceutical synthesis. Central to this process are high-purity intermediates, materials that serve as the essential building blocks for complex drug molecules. tert-Butyl (S)-[1-(aminooxy)propan-2-yl]carbamate, a compound characterized by its CAS number 957796-51-9 and molecular formula C8H18N2O3, is a prime example of such a critical intermediate, particularly in the synthesis of Avibactam.

The value of this pharmaceutical intermediate is directly linked to its stringent quality standards. With an assay of ≥98.0%, it ensures a high degree of purity, which is non-negotiable in the pharmaceutical industry. This purity level is crucial for achieving predictable reaction outcomes, minimizing the formation of unwanted byproducts, and ultimately guaranteeing the safety and efficacy of the final pharmaceutical product. For manufacturers aiming for reproducibility and regulatory compliance, securing intermediates with such well-defined specifications is paramount.

As an Avibactam synthesis intermediate, this compound plays a key role in the development of advanced antibiotics. The chemical properties inherent in its structure, including its molecular weight of 190.24012, are carefully considered during process development to optimize yields and production efficiency. This attention to detail at the intermediate stage directly impacts the feasibility and cost-effectiveness of manufacturing vital medications.

Moreover, the availability of C8H18N2O3 pharmaceutical intermediate with a guaranteed high assay supports the ongoing innovation in drug discovery. Researchers can rely on the consistent quality of such materials to explore new therapeutic avenues and refine existing synthetic routes. The importance of a stable supply chain for essential intermediates cannot be overstated, especially in the context of global health challenges. Understanding the specific role and value of compounds like tert-Butyl (S)-[1-(aminooxy)propan-2-yl]carbamate provides insight into the sophisticated processes that underpin modern medicine and the relentless pursuit of better treatments.