For synthetic chemists and formulation scientists, a thorough understanding of the chemical properties of their raw materials is fundamental to successful product development. 6-Hydroxynicotinonitrile (CAS: 95891-30-8) is a prime example of a heterocyclic organic compound whose unique characteristics make it highly valuable in various research and industrial applications, particularly within the pharmaceutical sector. As a dedicated supplier of such critical intermediates, we aim to provide insights into why this compound is so sought after.

With its molecular formula C6H4N2O and a molecular weight of 120.11 g/mol, 6-Hydroxynicotinonitrile offers a specific structural framework that is advantageous for various synthetic pathways. The presence of the hydroxyl group and the nitrile moiety on a pyridine ring provides versatile reactivity. The hydroxyl group can participate in etherification, esterification, or act as a nucleophile, while the nitrile group can be hydrolyzed to a carboxylic acid, reduced to an amine, or involved in cycloaddition reactions. This inherent versatility positions it as an excellent pharmaceutical raw intermediate and a key synthesis material.

R&D scientists often prioritize purity when sourcing chemical intermediates. A minimum purity of 97% for 6-Hydroxynicotinonitrile is typically expected from reliable manufacturers, ensuring that reactions proceed with high yield and minimal by-products. When you buy 6-Hydroxynicotinonitrile, consider the importance of supplier reputation. A manufacturer with a proven track record for quality control, providing detailed COAs and MSDS, offers peace of mind and supports regulatory compliance. This diligence is crucial for any scientist working on complex projects or seeking to scale up production.

The applications of 6-Hydroxynicotinonitrile extend beyond basic synthesis. Its structure lends itself to the development of new functional materials and active pharmaceutical ingredients. For product formulation chemists, understanding how this compound can be incorporated into larger molecular structures to achieve desired biological activity or material properties is key. Availability from a dependable chemical supplier is paramount for seamless integration into formulation processes.

In summary, the chemical properties of 6-Hydroxynicotinonitrile make it an indispensable tool for synthetic chemists and formulation specialists. By prioritizing high-purity materials from trusted manufacturers, researchers can effectively leverage this versatile heterocyclic organic compound to drive innovation in pharmaceuticals and beyond.