The field of fluorochemistry continues to expand, driven by the unique properties that fluorine imparts to organic molecules. Among the essential building blocks enabling these advancements is Nonafluorobutyl Bromide (CAS 375-48-4). This perfluorinated compound, often sought after by R&D scientists and product formulators, serves as a critical intermediate in the synthesis of a wide array of advanced materials and specialty chemicals. Understanding its synthesis, properties, and applications is key for professionals in chemical manufacturing and research.

What is Nonafluorobutyl Bromide?

Nonafluorobutyl Bromide, with the chemical formula C4BrF9, is a perfluorinated alkane derivative. It is characterized by a four-carbon chain where all hydrogen atoms have been replaced by fluorine atoms, and a bromine atom is attached to one end. This extensive fluorination grants the molecule exceptional thermal stability, chemical inertness, low surface tension, and unique solvency characteristics. These properties make it a valuable reagent for introducing fluorinated moieties into other molecules or for use as a specialty solvent.

Applications in Fluorochemical Synthesis

The versatility of Nonafluorobutyl Bromide as a synthetic intermediate is its primary appeal. It is widely used in:

  • Material Science: As a precursor for synthesizing fluorinated polymers, surfactants, and coatings that exhibit enhanced durability, chemical resistance, and non-stick properties.
  • Pharmaceuticals: Incorporating perfluorinated groups can significantly alter the pharmacokinetic properties of drug candidates, such as bioavailability and metabolic stability. Nonafluorobutyl Bromide is a key reagent for introducing these groups.
  • Agrochemicals: Fluorinated compounds are increasingly important in the development of novel pesticides and herbicides, offering improved efficacy and environmental profiles.
  • Specialty Reagents: It acts as a building block for other fluorinated reagents and intermediates, expanding the toolbox available to synthetic organic chemists.

Sourcing and Manufacturing Considerations

For businesses looking to procure Nonafluorobutyl Bromide, identifying a reliable manufacturer is crucial. Companies that specialize in fluorine chemistry, often based in regions with strong chemical manufacturing sectors like China, are primary suppliers. When evaluating suppliers, chemists and procurement specialists should consider purity levels (typically >97%), reliable supply chains, and competitive pricing. Requesting a Certificate of Analysis (COA) is standard practice to verify the product's quality and suitability for specific applications. Many suppliers offer bulk purchase discounts, making it more economical for industrial users.

The Future of Fluorinated Compounds

As industries continue to demand materials with enhanced performance characteristics, the importance of fluorochemicals like Nonafluorobutyl Bromide will only grow. Its role as a foundational building block for innovation ensures its continued relevance in cutting-edge research and manufacturing processes. Professionals seeking to leverage the power of fluorine in their product development will find Nonafluorobutyl Bromide to be an indispensable component.