Organic chemistry is the cornerstone of innovation across numerous industries, from pharmaceuticals and agrochemicals to materials science. Central to this field is the utilization of versatile chemical intermediates that enable complex molecular constructions. 4-Hydroxydiphenylamine, identified by its CAS Number 122-37-2, is one such compound that offers significant synthetic potential for researchers and manufacturers alike.

4-Hydroxydiphenylamine is characterized by the presence of both a hydroxyl group and a diphenylamine moiety. This dual functionality makes it a valuable reactant in a variety of organic transformations. The hydroxyl group can participate in esterification, etherification, and oxidation reactions, while the amine functionality can undergo acylation, alkylation, and coupling reactions. These properties allow chemists to use it as a precursor for synthesizing more complex molecules, including those with specific electronic, optical, or biological activities.

For academic and industrial research laboratories, sourcing high-purity 4-Hydroxydiphenylamine is crucial for reproducible results. When looking to buy this chemical, many researchers turn to established suppliers, including those in China, known for providing materials with a minimum purity of 97%. The availability of this intermediate at competitive prices and in research-friendly quantities facilitates experiments and the scale-up of promising synthetic routes.

The applications of molecules derived from 4-Hydroxydiphenylamine are diverse. They can range from novel dyes and pigments to advanced materials with unique electronic properties, and as intermediates in the synthesis of biologically active compounds. Understanding the reactivity profile of 4-Hydroxydiphenylamine allows chemists to design targeted synthetic strategies to achieve desired molecular structures and functions.

In conclusion, 4-Hydroxydiphenylamine (CAS 122-37-2) is a powerful tool in the arsenal of an organic chemist. Its versatile reactivity, combined with the availability from reputable manufacturers, makes it an attractive intermediate for innovation. Whether for academic exploration or industrial synthesis, sourcing this compound from trusted suppliers ensures the quality and efficiency needed to advance chemical research and development.