The intricate world of chemical synthesis relies on a deep understanding of the properties and applications of each component. Trisodium 4-carboxy-5-mercapto-3-hydroxy-isothiazole (CAS 76857-14-2) is a prime example of a specialized chemical that plays a significant role in various industrial and pharmaceutical processes. NINGBO INNO PHARMCHEM CO.,LTD. provides this compound, offering valuable insights into its utility, particularly in the synthesis of antibacterial agents.

The compound, identified by CAS number 76857-14-2, is characterized by its unique molecular formula, C4H2NNa3O3S2, and a molecular weight of approximately 245.16. It typically appears as a white solid, with a melting point exceeding 210°C, often with decomposition. Its solubility in methanol and water, though described as slight, makes it amenable to various reaction conditions. These CAS 76857-14-2 chemical properties are crucial for its application as a building block in complex organic synthesis. The company is dedicated to ensuring the consistent quality of this compound for its clients.

The primary application of Trisodium 4-carboxy-5-mercapto-3-hydroxy-isothiazole lies in its role as a pharmaceutical intermediate for antibacterial agents. It is instrumental in the synthesis of new cephamycin derivatives, a class of antibiotics known for their effectiveness against a broad spectrum of bacteria, including those that have developed resistance to other drugs. Researchers actively utilize this intermediate to explore novel therapeutic options, aiming to combat infectious diseases more effectively. The versatility of 4-Isothiazolecarboxylic acid derivatives opens up avenues for diverse medicinal chemistry applications.

NINGBO INNO PHARMCHEM CO.,LTD. is a trusted source for high-quality chemical compounds, and Trisodium 4-carboxy-5-mercapto-3-hydroxy-isothiazole is no exception. Our commitment to excellence ensures that our products meet the exacting standards required by the pharmaceutical and chemical industries. By understanding and leveraging the specific CAS 76857-14-2 chemical properties, scientists can push the boundaries of drug development and contribute to global health solutions. The ongoing research into the synthesis of new cephamycin derivatives highlights the compound's enduring importance.