Understanding the chemical intricacies of pharmaceutical compounds is crucial for their effective development and application. Cephalothin Acid, known by its CAS number 153-61-7, possesses a unique chemical profile that underpins its utility as a potent antibiotic precursor and a vital pharmaceutical intermediate. This article explores its key chemical properties and offers insights into its synthesis.

The molecular formula for Cephalothin Acid is C16H16N2O6S2, and it has a molecular weight of approximately 396.4 g/mol. Its chemical structure features a beta-lactam ring, characteristic of cephalosporins, fused with a dihydrothiazine ring. This core structure is essential for its mechanism of action, which involves inhibiting bacterial cell wall synthesis. The detailed chemical properties, including its physical state as a white crystalline powder, are critical for anyone looking to 'buy Cephalothin Acid powder'.

The synthesis of Cephalothin Acid typically involves semi-synthetic processes, starting from naturally occurring cephalosporins or their precursors. These complex chemical transformations require precise control over reaction conditions to ensure high purity and yield. Manufacturers like NINGBO INNO PHARMCHEM CO.,LTD. invest heavily in advanced synthesis technologies to produce Cephalothin Acid that meets stringent pharmaceutical standards. This ensures the 'benefits of Cephalothin Acid' are fully realized in the downstream drug products.

The 'uses of Cephalothin Acid' are predominantly as an intermediate for the production of cephalothin sodium, a widely used parenteral antibiotic. Its chemical stability and reactivity make it an ideal starting material for further chemical modifications. The competitive 'price of Cephalothin Acid' available in the market, especially when sourced from reliable suppliers, facilitates its widespread use in antibiotic manufacturing.

In essence, the chemical profile of Cephalothin Acid is central to its role in the pharmaceutical industry. A thorough understanding of its properties and synthesis pathways is beneficial for researchers, manufacturers, and procurement specialists who aim to leverage its potential. Ensuring the quality of this 'pharmaceutical intermediate' is a testament to the rigorous standards upheld in pharmaceutical production.