335-56-8 | 1-Bromoperfluorohexane

CAS:335-56-8 | 1-Bromoperfluorohexane ,Description

1-Bromoperfluorohexane, also known as 1-Bromoheptafluorocyclohexane, is a colorless, odorless, and nonflammable compound with the chemical formula C6F13Br. It is a saturated halogenated hydrocarbon, which is widely used in various industrial and scientific applications. 1-Bromoperfluorohexane is a versatile compound with many different properties, including its ability to act as a solvent, a surfactant, and a catalyst. In addition, it is also used as a reagent in the synthesis of other compounds.
 

Scientific Research Applications

• Low-Temperature Heat Capacity: 1-Bromoperfluorooctane, a related compound, has been studied for its heat capacities in both crystalline and liquid states. This research is crucial in understanding its thermodynamic properties, which can be significant in various industrial applications (Varushchenko, Druzhinina, & Sorkin, 1997).
• Medical Applications: 1-Bromoperfluoroalkanes, particularly perfluorooctyl bromide, are used in medical imaging as contrast agents for magnetic resonance imaging, computed tomography, and X-ray procedures. They also have potential applications in cancer therapy, particularly in enhancing the radiosensitivity of tumor cells (Signe, Blancou, & Commeyras, 1992).
• Solvent in Chemical Reactions: Perfluorohexane, a similar compound, has been utilized as a phase-screen medium between reagents and reactants in the bromination and chlorination of alcohols. This demonstrates its potential use as a solvent in facilitating specific chemical reactions (Nakamura et al., 2003).
• Environmental Fate of Haloalkanes: The reactivity of naturally occurring nucleophiles with haloalkanes, including 1-bromohexane, was studied to understand the environmental fate of these compounds. This research is significant for environmental monitoring and pollution control (Haag & Mill, 1988).
• Skin Sensitization Activity: The skin sensitization activity of 1-bromoalkanes, including 1-bromohexane, was evaluated using the murine local lymph node assay. This research provides insights into the allergenic potential of these compounds and their interactions with biological systems (Siegel et al., 2009).
• Glutathione Depletors in Cells: 1-Bromoalkanes have been shown to deplete cellular glutathione levels in isolated rat hepatocytes, without causing cytotoxicity. This finding is important for understanding the biochemical interactions of these compounds at the cellular level (Khan & O'Brien, 1991).

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