For chemists, R&D scientists, and procurement specialists in the fine chemical and pharmaceutical sectors, understanding the intricate chemical properties of a compound is fundamental to its effective application. 4-Bromo-2,3,5,6-tetrafluoroaniline (CAS 1998-66-9) is a prime example of a molecule whose unique characteristics make it a sought-after building block in advanced synthesis. This article delves into its key chemical attributes and why they are significant for industrial applications.

Molecular Structure and Composition

The systematic name, 4-Bromo-2,3,5,6-tetrafluoroaniline, precisely describes its structure: an aniline core (a benzene ring attached to an amine group, -NH₂) where a bromine atom is positioned at the fourth carbon (para position) and four fluorine atoms are located at the second, third, fifth, and sixth positions (ortho and meta positions relative to the amine group). Its molecular formula is C₆H₂BrF₄N, with a molecular weight of approximately 243.98 g/mol.

Key Chemical Properties and Reactivity

The combination of fluorine and bromine substituents on the aromatic ring dictates the compound's reactivity and behavior:

  • Electron-Withdrawing Effects: Fluorine atoms are highly electronegative, and their presence strongly withdraws electron density from the benzene ring. This significantly deactivates the ring towards electrophilic aromatic substitution compared to unsubstituted aniline. However, it also activates the ring towards nucleophilic aromatic substitution under specific conditions.
  • Aryl Radical Formation: One of the most notable aspects of 4-Bromo-2,3,5,6-tetrafluoroaniline's chemistry is its propensity to form aryl radicals when treated with reagents such as pentyl nitrite. This process is crucial for various radical-mediated coupling reactions, enabling the formation of new carbon-carbon bonds that are difficult to achieve through polar reaction mechanisms. This property is highly valuable in complex organic synthesis.
  • Amine Group Reactivity: The amine group (-NH₂) retains its nucleophilic character, allowing for typical amine reactions such as acylation, alkylation, and condensation. However, the electron-withdrawing effect of the fluorinated ring can slightly reduce its basicity and nucleophilicity compared to simple anilines.
  • Bromine as a Leaving Group: The bromine atom can act as a leaving group in various cross-coupling reactions, such as Suzuki, Stille, or Heck couplings, allowing for the introduction of diverse organic fragments onto the fluorinated aromatic core.

Significance for B2B Applications

For procurement managers and R&D scientists, understanding these properties translates directly into practical benefits:

  • Targeted Synthesis: The predictable reactivity allows for precise incorporation into synthetic pathways for pharmaceuticals and advanced materials.
  • Facilitating Complex Molecule Construction: The ability to form aryl radicals and participate in cross-coupling reactions makes it a go-to intermediate for building sophisticated molecular structures.
  • Reliable Supplier Insights: When seeking to buy this compound, knowing its properties helps in evaluating the quality and suitability of material offered by different manufacturers.

As a leading manufacturer and supplier, NINGBO INNO PHARMCHEM CO.,LTD. ensures that our 4-Bromo-2,3,5,6-tetrafluoroaniline (CAS 1998-66-9) meets the highest purity standards, enabling its effective use in demanding synthetic applications. We are dedicated to providing detailed technical information and reliable supply to support your research and manufacturing needs. Contact us to obtain a quote and learn more about how this versatile intermediate can benefit your projects.