For chemists and material scientists, a thorough understanding of a chemical's properties is fundamental to its successful application in synthesis. 1,3-Dibromotetrafluorobenzene (CAS: 1559-87-1) is a key fluorinated aromatic intermediate with specific characteristics that dictate its utility in advanced material development. This article explores the essential properties of 1,3-Dibromotetrafluorobenzene, highlighting its significance in synthesis and guiding procurement professionals on how to source this compound efficiently.

Key Chemical and Physical Properties of 1,3-Dibromotetrafluorobenzene
1,3-Dibromotetrafluorobenzene, identified by CAS number 1559-87-1, possesses the molecular formula C6Br2F4 and a molecular weight of 307.87. It presents as a clear, colorless to light yellow liquid at room temperature. Its melting point is a narrow range between 5-7°C, while its boiling point is approximately 200°C. The flash point of 92°C indicates its combustibility. These physical properties are important for handling, storage, and reaction design. Chemically, the presence of two bromine atoms and four fluorine atoms on the benzene ring imparts unique reactivity. The electron-withdrawing nature of the fluorine atoms influences the reactivity of the bromine atoms, making them suitable for various substitution and coupling reactions. Its stability is noted to be good under normal temperature and pressure conditions, though it is incompatible with oxidizing agents.

Impact of Properties on Synthesis Applications
The specific properties of 1,3-Dibromotetrafluorobenzene make it an ideal intermediate for several sophisticated applications. Its primary use is in the synthesis of fluorinated liquid crystal derivatives, where the controlled incorporation of fluorinated aromatic rings is crucial for achieving desired electro-optical properties. The molecule also serves as a precursor in the synthesis of halogen bonded adducts, often formed through cryocrystallization, which is a key technique in supramolecular chemistry. Researchers can leverage the reactivity of the bromine atoms for cross-coupling reactions, such as Suzuki or Sonogashira couplings, to build complex molecular architectures. Understanding these properties helps scientists and procurement managers make informed decisions when they intend to buy this chemical.

Sourcing High-Quality 1,3-Dibromotetrafluorobenzene
When looking to buy 1,3-Dibromotetrafluorobenzene, it is crucial to source from reputable manufacturers and suppliers who guarantee high purity and consistent quality. Suppliers in China are a significant source for this intermediate, offering competitive pricing and robust supply chains. When requesting a quotation, ensure you specify the required purity (typically 98% or higher) and quantity. It is also beneficial to inquire about the supplier's quality control processes and their ability to provide technical support. For your research and production needs, partnering with a reliable manufacturer like us ensures you receive a product that meets stringent specifications, allowing for successful synthesis outcomes.

By understanding the detailed properties of 1,3-Dibromotetrafluorobenzene, R&D professionals can better harness its potential in creating next-generation materials. For those looking to buy, focusing on quality and supplier reliability is key.