While widely recognized for its significant role in the synthesis of azo dyes, 4-Aminoacetanilide (CAS 122-80-5) is a chemical intermediate with a surprisingly broad range of applications. Its unique molecular structure, featuring both amine and amide functionalities on a phenyl ring, makes it a valuable component in various chemical processes, extending its utility far beyond the textile and dyeing industries. For B2B clients, understanding this versatility can open new avenues for sourcing and application.

A Foundation for Vibrant Colors: Dye Applications

The primary industrial application of 4-Aminoacetanilide remains in the production of azo dyes. As a diazo component, it reacts with coupling agents to form chromophores responsible for color. Manufacturers leverage its structure to produce specific shades and performance characteristics in dyes such as disperse yellow G, direct acid-resistant vermilion 4BS, and acid-resistant fuchsin 6B. The consistency and purity of the 4-Aminoacetanilide sourced from a reliable manufacturer directly impact the color yield, shade accuracy, and overall fastness properties of the final dyes. For those in the textile and pigment industries, securing a dependable supply is essential for maintaining product quality and market competitiveness.

Crucial Building Block in Pharmaceuticals

Beyond the realm of color, 4-Aminoacetanilide plays a vital role as a chemical intermediate in the pharmaceutical industry. Its reactive amino group and aromatic structure make it a suitable starting material for synthesizing complex organic molecules, including certain beta-lactam antibiotics and other heterocyclic compounds used in medicinal chemistry. R&D scientists and procurement managers often search for '4-aminoacetanilide price for dye intermediate' but should also consider its importance in drug development. Ensuring a steady supply of high-purity 4-Aminoacetanilide from trusted manufacturers is critical for pharmaceutical synthesis, impacting the cost-effectiveness and quality of active pharmaceutical ingredients (APIs).

Applications in Chemical Research and Specialty Synthesis

The inherent reactivity of 4-Aminoacetanilide also lends itself to applications in broader chemical research and specialty chemical manufacturing. It can be utilized in various organic synthesis pathways, acting as a precursor for novel compounds with potential applications in materials science, agrochemicals, or advanced intermediates. Its slightly soluble nature in water and solubility in organic solvents like ethanol and ether allow for its use in diverse reaction media. For researchers looking to 'buy 4-aminoacetanilide supplier in China,' finding a supplier that offers smaller quantities for R&D alongside bulk for industrial use can be highly beneficial. The compound's relatively stable nature, particularly when stored properly away from direct sunlight, further enhances its utility in laboratory settings.

Procurement and Supplier Landscape

When seeking to procure 4-Aminoacetanilide, B2B buyers often look for 'cas 122-80-5 pharmaceutical intermediate manufacturer' or 'p-Aminoacetanilide for azo dye production' to identify potential suppliers. The market is populated by numerous manufacturers, with a significant concentration in Asia, particularly China. Evaluating suppliers based on their product specifications, purity levels, production capacity, and customer service is crucial. Competitive pricing is always a consideration, but reliability and consistent quality should be the primary focus, especially for pharmaceutical applications. Engaging with a supplier that offers comprehensive technical data and responsive support can significantly ease the procurement process.

In conclusion, 4-Aminoacetanilide is a highly versatile chemical intermediate with significant applications in both the dye and pharmaceutical industries, as well as in general chemical research. Understanding its multifaceted uses and prioritizing reliable sourcing from quality manufacturers ensures that businesses can harness its full potential.