Sulfapyridine, identified by its CAS number 144-83-2, is a compound whose chemical structure and properties have long made it a subject of interest in both pharmaceutical and chemical research. As a sulfonamide derivative, its molecular formula (C11H11N3O2S) and characteristic functional groups dictate its reactivity and solubility, influencing its various applications. Understanding these sulfapyridine chemical properties is fundamental for researchers utilizing it as a reagent.

The physical state of Sulfapyridine is typically a white to off-white crystalline powder. Its solubility profile is notably pH-dependent, a factor that has implications for both its therapeutic use and its application in laboratory settings. While it exhibits moderate solubility in certain organic solvents, its limited solubility in neutral or acidic aqueous solutions can be a consideration during experimental design. Researchers often consult datasheets to understand specific solvent compatibilities and optimal conditions for dissolution.

In research and development, Sulfapyridine serves as a valuable chemical intermediate and a reference compound for studying sulfonamide antibiotics and their mechanisms of action. Its well-defined chemical structure makes it a useful tool for developing analytical methods, exploring structure-activity relationships, and investigating potential new derivatives with improved properties. The purity of Sulfapyridine is a key factor for reliable research outcomes, making the selection of high-grade products essential.

When considering the purchase of Sulfapyridine for research purposes, it is important to identify reputable suppliers who can provide comprehensive product information, including Certificates of Analysis (CoA) and Material Safety Data Sheets (MSDS). NINGBO INNO PHARMCHEM CO.,LTD., for example, is a company that provides Sulfapyridine pharmaceutical powder, catering to the needs of scientific laboratories. Access to this chemical reagent, whether for in vitro studies or as a starting material for synthesis, supports ongoing advancements in medicinal chemistry and pharmacology.

The study of sulfapyridine drug interactions and side effects in its medicinal context also offers valuable insights for chemical researchers, informing potential safety considerations when handling the compound. By thoroughly understanding the sulfapyridine chemical properties, scientists can optimize experimental protocols and contribute to the broader knowledge base surrounding this historically significant molecule.