Allylpentafluorobenzene (CAS 1736-60-3) is a fascinating molecule that bridges the worlds of fluorinated aromatics and reactive alkenes. Its chemical structure, featuring a pentafluorinated phenyl ring directly attached to an allyl group (C6F5-CH2-CH=CH2), dictates its unique reactivity and applicability in various chemical syntheses.

Understanding its properties is key for anyone looking to buy or use this compound. Allylpentafluorobenzene is typically a clear, colorless liquid with a relatively low melting point and a boiling point around 148-149 °C. Its high fluorine content contributes to its density and influences its solubility characteristics. The presence of the double bond in the allyl group makes it susceptible to addition reactions, radical polymerization, and other transformations typical of alkenes.

The pentafluorophenyl ring, on the other hand, is electron-deficient due to the highly electronegative fluorine atoms. This can affect the reactivity of the allyl group and also opens up possibilities for nucleophilic aromatic substitution under specific conditions, although the allyl group is generally more reactive. These characteristics make it a versatile starting material for creating more complex fluorinated organic molecules.

For researchers and manufacturers, insights into its synthesis are also valuable. While specific industrial synthesis routes may be proprietary, Allylpentafluorobenzene can be prepared through various organometallic coupling reactions or functionalization of pentafluorobenzene derivatives. The ability to source this compound from reliable manufacturers or to consider custom synthesis for specific purity or quantity requirements is crucial for many R&D projects.

When considering a supplier, inquiring about the typical synthesis methods and quality control measures employed can provide confidence in the product's consistency. For those seeking to purchase Allylpentafluorobenzene, understanding these chemical nuances ensures that the material will perform as expected in their intended applications, whether in polymer science or fine chemical synthesis.