Material science is a dynamic field driven by the development of new compounds with enhanced properties. For researchers and chemists, intermediates like 1-Bromo-5-Fluoropentane (CAS: 407-97-6) are instrumental in creating advanced materials, particularly those incorporating fluorine atoms.

1-Bromo-5-Fluoropentane, a halogenated alkane with the molecular formula C5H10BrF, serves as a valuable building block in material science applications. Its utility stems from the presence of both a reactive bromine atom, suitable for polymerization initiation or chain extension, and a fluorine atom, which can impart unique characteristics such as increased thermal stability, chemical resistance, and altered surface properties to polymers and materials. These attributes make it ideal for developing high-performance coatings, specialized membranes, and advanced composites.

Professionals in material science often seek to purchase 1-Bromo-5-Fluoropentane with high purity (≥99.0% assay) to ensure the predictable synthesis of polymers and functional materials. The compound's physical properties, such as its liquid state and specific boiling point (162°C), also influence how it is integrated into manufacturing processes. When sourcing, terms like 'buy fluorinated intermediate' or 'material science building block supplier' are common search queries.

Manufacturers who can supply 1-Bromo-5-Fluoropentane in bulk quantities, often in 200 kg drums, are essential partners for companies scaling up material production. The ability to source from reliable manufacturers, especially those with a global presence or strong export capabilities, ensures a stable supply chain. Access to technical data sheets and safety information is also critical for handling and implementing the compound effectively in research and development settings.

The incorporation of fluorine into materials can lead to significant performance improvements, making intermediates like 1-Bromo-5-Fluoropentane highly valuable. By collaborating with experienced chemical suppliers, material scientists can effectively leverage this compound to push the boundaries of material innovation, developing next-generation products for various industries. A strategic supplier relationship is key to unlocking these material advancements.