4-Bromo-N-phenylaniline, identified by its CAS number 54446-36-5, is a compound that exemplifies versatility in organic chemistry. This white solid, with the molecular formula C12H10BrN, is a crucial intermediate widely utilized across several industrial sectors, including the synthesis of dyes, pharmaceuticals, and advanced electronic materials. Its unique chemical structure, featuring a bromine atom attached to a diphenylamine core, offers a platform for a wide array of chemical reactions, making it a sought-after building block for complex organic molecules.

Key Chemical Properties and Synthesis Insights

The diphenylamine moiety in 4-Bromo-N-phenylaniline contributes to its electronic properties, while the bromine atom serves as a reactive handle for further chemical modifications. Typically supplied with a purity of ≥98%, this compound is stable under standard handling and storage conditions. Its melting point, generally between 85-89°C, indicates its solid state at room temperature. Synthesis of 4-Bromo-N-phenylaniline usually involves established organic reactions, often starting from readily available precursors, ensuring a degree of cost-effectiveness in its production. Manufacturers focus on optimizing these synthetic routes to achieve high yields and consistent purity, which are critical for its demanding applications.

Diverse Applications Driving Demand

The primary utility of 4-Bromo-N-phenylaniline lies in its role as an intermediate. In the dye industry, it can be used to create chromophores with specific spectral properties. In pharmaceutical synthesis, it acts as a precursor for developing active pharmaceutical ingredients (APIs) by facilitating the construction of complex molecular architectures. Perhaps one of its most significant modern applications is in the field of organic electronics, particularly in the development of OLED (Organic Light-Emitting Diode) materials. Here, it is incorporated into host materials, charge transport layers, or emissive layers, contributing to the efficiency and performance of displays and lighting technologies.

Researchers and chemists often seek to buy this compound for its potential in new material discovery and process development. The ability to functionalize the molecule at the bromine site or through modifications on the amine nitrogen makes it incredibly adaptable.

Sourcing and Partnership with Manufacturers

For industries relying on 4-Bromo-N-phenylaniline, establishing a relationship with a dependable manufacturer and supplier is crucial. Companies like NINGBO INNO PHARMCHEM CO.,LTD. specialize in providing such high-quality intermediates. When looking to purchase this compound, it is advisable to inquire about purity certifications, batch consistency, and delivery timelines. Sourcing from reputable suppliers ensures that your synthesis projects proceed smoothly and efficiently, meeting the exacting standards required in advanced chemical manufacturing.

In conclusion, the chemical versatility of 4-Bromo-N-phenylaniline makes it an indispensable intermediate for numerous industries. Its robust applications in dyes, pharmaceuticals, and OLED technology highlight its importance in current and future chemical innovations. By understanding its properties and securing it from quality-focused manufacturers, businesses can effectively leverage this compound to drive their product development forward.