In the dynamic world of chemical innovation, specific intermediates play pivotal roles in enabling the creation of cutting-edge materials. 4-Bromo-N-phenylaniline (CAS 54446-36-5) is one such compound, a versatile organic intermediate valued for its unique chemical structure and reactivity. As a key component in various synthesis pathways, it contributes significantly to advancements in fields such as OLED technology, specialty polymers, and fine chemicals. Understanding its properties and how to procure it from reliable suppliers is crucial for researchers and manufacturers.

Chemical Profile of 4-Bromo-N-phenylaniline

This white solid compound, with the molecular formula C12H10BrN, is a derivative of diphenylamine, featuring a bromine atom in the para position of one of the phenyl rings. This structural feature imparts specific electronic and chemical properties, making it an ideal precursor for further functionalization. Its melting point typically ranges from 85-89°C, indicating a stable solid form under normal conditions, which simplifies handling and storage. The compound's solubility in common organic solvents also aids in its integration into various reaction systems.

Applications in Advanced Materials

One of the most prominent applications of 4-Bromo-N-phenylaniline is in the synthesis of materials for Organic Light-Emitting Diodes (OLEDs). The compound serves as a vital intermediate in building complex organic molecules that form the emissive and charge-transport layers in OLED devices. Its bromine substituent can be strategically used in cross-coupling reactions to attach other functional groups, tailoring the electronic and photophysical properties of the final OLED materials. This allows for the development of displays with enhanced efficiency, color purity, and longevity.

Beyond OLEDs, 4-Bromo-N-phenylaniline finds utility in the synthesis of specialty chemicals and polymers. Its aromatic amine structure and reactive bromine atom make it a valuable building block for creating custom molecules with specific functionalities, such as enhanced thermal stability, UV resistance, or conductivity. Researchers often seek to buy this compound for exploring novel material properties and developing next-generation chemical products.

Sourcing High-Quality 4-Bromo-N-phenylaniline

For those involved in the development and manufacturing of advanced materials, securing a reliable supply of high-purity 4-Bromo-N-phenylaniline is essential. Partnering with reputable chemical manufacturers and suppliers, particularly those with a strong presence in China, can ensure access to quality products at competitive prices. When sourcing this intermediate, consider manufacturers who guarantee purity levels of ≥98% and provide comprehensive technical documentation. For example, working with a trusted supplier like NINGBO INNO PHARMCHEM CO.,LTD. can provide consistent access to this crucial intermediate, supporting your innovation in advanced material science.

In conclusion, 4-Bromo-N-phenylaniline is more than just an organic intermediate; it's an enabler of technological progress. Its strategic use in synthesizing advanced materials underscores its importance in modern chemical industries. By understanding its capabilities and sourcing it from reliable sources, companies can drive innovation and create products that meet the evolving demands of the market.