Salicylamide (CAS 65-45-2) is more than just a chemical compound; it's a cornerstone in various scientific and industrial applications. Its unique molecular structure and properties lend themselves to diverse uses, from its well-known pharmaceutical applications to its critical role as a building block in advanced chemical synthesis. For those involved in research and development or bulk chemical purchasing, a thorough understanding of Salicylamide's scientific profile is invaluable.

At its core, Salicylamide is the amide derivative of salicylic acid. Its molecular formula, C7H7NO2, reveals a relatively simple organic structure featuring a benzene ring substituted with a hydroxyl (-OH) group and an amide (-CONH2) group. This structure dictates its physical characteristics: it typically appears as a white crystalline powder, is odorless, and exhibits a moderate melting point range of 139-142°C. Its solubility profile is also noteworthy – while sparingly soluble in water, it is more soluble in organic solvents like ethanol and chloroform, and readily soluble in alkaline solutions. These properties are crucial for formulators and chemists when designing reaction conditions or product formulations.

Scientifically, Salicylamide is recognized for its analgesic and antipyretic activities. This is often attributed to its structural similarity to aspirin and its ability to modulate prostaglandin synthesis pathways, though its precise mechanism can differ. This makes it a valuable active pharmaceutical ingredient (API) or an intermediate in the production of other APIs. Researchers continuously explore its pharmacological potential, investigating its effects on various biological targets. For those looking to buy Salicylamide for pharmaceutical research or production, ensuring the specified purity, such as the commonly available 99.0% minimum assay, is essential.

Beyond its medicinal context, Salicylamide is a vital intermediate in organic synthesis. The presence of both a hydroxyl group and an amide group allows for a range of chemical reactions. For instance, the hydroxyl group can undergo esterification or etherification, while the amide group can be hydrolyzed or modified. This reactivity makes it an indispensable starting material for creating more complex molecules. Chemical manufacturers often utilize Salicylamide as a precursor for producing other fine chemicals, including those used in the agrochemical industry. If your company requires a reliable source to purchase Salicylamide for these synthetic purposes, a dedicated manufacturer in China can provide the necessary volumes and consistent quality.

The chemical data available, such as its CAS number (65-45-2), molecular weight (137.14 g/mol), and pKa values, are essential reference points for chemists and researchers. Understanding these specific parameters ensures that chemists can accurately predict its behavior in reactions and formulations. As a key supplier of Salicylamide, we provide detailed technical data sheets and support to help our B2B clients leverage the full scientific potential of this versatile compound.

In summary, Salicylamide's scientific profile, encompassing its physical properties, chemical reactivity, and biological activity, makes it a compound of significant interest. Whether you are a pharmaceutical developer seeking an API or a chemist in need of a versatile intermediate, understanding its science is the first step to effective sourcing and application.