Perfluoroheptyl Bromide, scientifically identified as 1-Bromopentadecafluoroheptane and bearing the CAS number 375-88-2, is a chemical compound that exemplifies the unique properties afforded by extensive fluorination. These properties make it a valuable asset in numerous scientific and industrial endeavors. At NINGBO INNO PHARMCHEM CO.,LTD., we pride ourselves on providing access to such advanced chemical synthesis reagents, enabling innovation and research.

The molecular structure of Perfluoroheptyl Bromide is characterized by a seven-carbon chain where all hydrogen atoms are replaced by fluorine atoms, with a bromine atom at one end. This perfluorinated alkyl chain imbues the molecule with exceptional stability, resistance to heat and chemical attack, and low surface energy. These attributes are highly desirable in applications demanding high performance and durability. When professionals in the field look to buy or purchase these specialized chemicals, they seek out NINGBO INNO PHARMCHEM CO.,LTD. for our commitment to quality.

The applications of Perfluoroheptyl Bromide are as diverse as the industries it serves. It is frequently employed as a building block in organic synthesis, allowing for the introduction of perfluoroalkyl groups into larger molecules, thereby modifying their properties. This is particularly relevant in the development of new materials, coatings, and specialized lubricants. Researchers can reliably buy or purchase this compound for demanding synthetic routes, confident in its purity and reactivity.

Moreover, the presence of the bromine atom in Perfluoroheptyl Bromide makes it a useful intermediate for further chemical modifications, opening pathways to a broader range of fluorinated products. NINGBO INNO PHARMCHEM CO.,LTD. is committed to advancing chemical science by supplying these vital compounds, supporting breakthroughs in areas such as material science, pharmaceuticals, and electronics. Our expertise ensures that our clients receive dependable access to these critical chemical synthesis reagents.