The field of chemical synthesis relies heavily on well-characterized intermediates that enable precise molecular construction. 1,4-Dibromotetrafluorobenzene (CAS 344-03-6) is one such compound, offering a unique combination of reactivity and stability due to its halogenation pattern. Understanding its chemical properties and diverse applications is crucial for R&D scientists and product formulators seeking high-performance building blocks. As a leading manufacturer, we provide insights into this valuable intermediate.

1,4-Dibromotetrafluorobenzene, with the chemical formula C6Br2F4, is a symmetrically substituted benzene ring. Its structure features bromine atoms at the para positions (1 and 4) and fluorine atoms occupying the remaining positions (2, 3, 5, and 6). This arrangement contributes to its moderate stability and predictable reactivity. Typically presented as a white crystalline powder, it possesses a melting point of 78-81 °C, signifying it is a solid at standard room temperatures. Its estimated boiling point is 198 °C, and a density of approximately 2.1984 g/cm³. These properties are vital for process design and safety protocols.

The compound’s utility in organic synthesis is extensive. The carbon-bromine bonds are particularly susceptible to nucleophilic attack and can participate in various organometallic cross-coupling reactions. This allows for the introduction of diverse functional groups or the extension of carbon chains, forming complex molecular architectures. The electron-withdrawing nature of the fluorine atoms also influences the overall electron density of the aromatic ring, potentially modifying reaction pathways and the properties of the resulting compounds. Researchers often leverage these characteristics when they aim to buy 1,4-Dibromotetrafluorobenzene for creating novel materials or complex active pharmaceutical ingredients.

Beyond its role in traditional organic synthesis, 1,4-Dibromotetrafluorobenzene finds applications in materials science, particularly in the development of electronic materials and polymers. The fluorinated aromatic core can impart desirable properties such as thermal stability, chemical resistance, and specific optical or electronic characteristics. For manufacturers and researchers, procuring this intermediate from a reliable supplier is key to ensuring the success of these advanced applications. When seeking to purchase this compound, look for manufacturers who can provide consistent quality and technical support, ensuring your material meets the stringent demands of modern scientific research.

In summary, the chemical properties of 1,4-Dibromotetrafluorobenzene make it an invaluable tool for chemists. Its versatility in synthesis and its contribution to advanced materials underscore its importance. If your work requires this essential organic intermediate, we are a premier manufacturer and supplier ready to meet your needs with high-quality products and reliable service.