In the realm of fine chemicals, few compounds offer the same degree of versatility and utility as 3-Aminophthalic Acid (CAS 5434-20-8). This vital intermediate serves as a cornerstone in numerous synthetic pathways, making it indispensable for researchers and manufacturers across various industries. Its unique chemical structure and reactive groups unlock a wide range of applications, from the intricate development of pharmaceuticals to the creation of specialized materials.

With a molecular formula of C8H7NO4 and a molecular weight of 181.15, 3-Aminophthalic Acid is known for its high purity, typically available at 95% or 98%. Its defined melting point of 180-185°C further solidifies its reliability in demanding synthesis processes. These fundamental 3-aminophthalic acid properties are what make it a preferred choice for complex chemical constructions.

The pharmaceutical industry extensively utilizes 3-Aminophthalic Acid as a key intermediate. It forms the backbone for synthesizing a multitude of Active Pharmaceutical Ingredients (APIs) and is integral in the research and development of new therapeutic agents. The precision required in drug development makes understanding these specific 3-aminophthalic acid uses paramount.

Beyond pharmaceuticals, the compound's reactivity makes it valuable in the synthesis of dyes, contributing to vibrant color formulations. Its potential applications also extend to the broader field of specialty chemicals, where its unique structure can be leveraged to create materials with bespoke properties. For those looking to buy 3-aminophthalic acid, recognizing this broad spectrum of uses ensures a strategic procurement decision.

NINGBO INNO PHARMCHEM CO.,LTD., as a dedicated manufacturer and supplier in China, ensures the consistent availability of high-quality 3-Aminophthalic Acid. Our commitment to excellence supports the diverse 3-aminophthalic acid applications seen globally, empowering scientific innovation and industrial progress. By prioritizing the quality and accessibility of this crucial fine chemical, we aim to facilitate breakthroughs in chemistry and beyond.