In the landscape of specialty chemicals, compounds that offer a unique blend of reactivity and functional versatility are highly prized. 3-(1-Cyanoethyl)benzoic Acid (CAS 5537-71-3) exemplifies such a molecule. While its primary and most recognized application is within the pharmaceutical industry as a precursor to ketoprofen, its chemical architecture opens doors to a wider array of uses in agrochemicals and specialized organic synthesis. For researchers and industry professionals seeking novel chemical solutions, understanding the broader utility of this compound is key.

Beyond Pharmaceuticals: A Versatile Chemical Intermediate

3-(1-Cyanoethyl)benzoic Acid is a white to off-white powder with a chemical formula C10H9NO2 and a purity level often specified at 99% or higher. Its structure, featuring both a carboxylic acid and a cyanoethyl group, provides multiple reactive sites. This dual functionality is precisely what makes it attractive for various applications:

  • Agrochemical Development: The cyano and carboxylic acid groups can be modified to create new molecules with potential herbicidal, fungicidal, or insecticidal properties. Researchers in the agrochemical sector may use this compound as a scaffold to design novel crop protection agents. The ability to buy relatively pure intermediates like this one facilitates exploratory synthesis in this field.
  • Specialty Organic Synthesis: In academic and industrial research laboratories, 3-(1-Cyanoethyl)benzoic Acid serves as a valuable building block for complex organic molecules. Its reactive centers allow for the construction of diverse molecular frameworks, which can then be further functionalized for various applications, from advanced materials to niche chemical products.
  • Research Reagent: For chemists investigating new reaction pathways or developing novel synthetic methodologies, this compound offers a well-defined starting point. Its known reactivity profiles can be explored and expanded upon.

Considerations for Non-Pharmaceutical Buyers

When procuring 3-(1-Cyanoethyl)benzoic Acid for applications outside of pharmaceuticals, buyers should still maintain a focus on quality and reliability. While strict pharmaceutical GMP compliance might not always be necessary, high purity (e.g., ≥98% or ≥99%) is still crucial for consistent experimental results and reliable synthesis outcomes. Factors to consider when you decide to buy include:

  • Purity and Consistency: Ensure the supplier can provide consistent batches of high-purity material.
  • Technical Specifications: Request detailed product information, including CAS number, molecular formula, melting point, and analytical data (e.g., CoA).
  • Supplier Reputation: Choose suppliers with a good track record for delivering specialty chemicals.
  • Packaging and Quantities: Confirm that the available packaging and order quantities meet your research or production needs. Manufacturers often offer flexible options, from grams for laboratory use to kilograms or tons for industrial applications.

Accessing the Market

To find and buy 3-(1-Cyanoethyl)benzoic Acid for your specific specialty chemical needs, employ targeted search terms such as 'specialty chemical supplier,' 'organic synthesis building block,' or 'buy CAS 5537-71-3.' Companies that list this compound on their product catalogs are often well-equipped to handle inquiries from various industrial sectors. Direct communication with their sales teams will allow you to discuss your unique requirements and obtain accurate pricing and lead times.

In summary, 3-(1-Cyanoethyl)benzoic Acid is more than just a pharmaceutical intermediate; it is a versatile specialty chemical with potential applications in agrochemicals and advanced organic synthesis. By understanding its broader utility and focusing on reliable sourcing, researchers and developers can harness its chemical potential to drive innovation in their respective fields.