Sodium p-toluenesulfonate, identified by its CAS number 657-84-1, is a compound that holds significant value in the field of organic synthesis. Its chemical structure and properties make it a versatile reagent, enabling a variety of transformations that are fundamental to creating complex organic molecules. As a sodium salt of p-toluenesulfonic acid, it often serves as a source of the tosylate anion or as a counter-ion in reactions. The ability to procure this chemical intermediate from reputable manufacturers is paramount for researchers and industrial chemists alike, ensuring the reliability of synthetic pathways.

In organic synthesis, sodium p-toluenesulfonate can be employed in several capacities. It is known to be used in reactions that involve alkylation, acting as a catalyst or reagent to facilitate the attachment of alkyl groups to molecules. Its solubility in water and various organic solvents allows for flexibility in reaction conditions. The compound's utility extends to being a precursor or intermediate in the synthesis of other organic chemicals, which may then be used in pharmaceuticals, agrochemicals, or material science. When chemists search for sodium p-toluenesulfonate suppliers, they are typically looking for high purity grades to ensure optimal reaction outcomes and minimize side products. The price of sodium p-toluenesulfonate can vary based on purity, quantity, and supplier, making it important to compare options when making a purchase.

The application of sodium p-toluenesulfonate is not limited to academic research; it is a workhorse in industrial organic synthesis. For example, its role as an intermediate in the production of certain pharmaceuticals highlights its practical importance. Companies looking to optimize their synthesis processes often investigate the benefits of using specific intermediates like sodium p-toluenesulfonate for efficiency and yield improvements. As a chemical raw material, its consistent availability and quality from suppliers, particularly those based in China, are key factors for manufacturers. The compound's stability and predictable reactivity patterns make it a reliable component in multi-step synthesis procedures.