Unlocking the Potential of Perfluoroether Bromide: CAS 330562-47-5 Insights
Discover the key properties, applications, and synthesis of this vital fluorinated intermediate.
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1-Bromoperfluoro-2,5,8-trioxadodecane
This high-purity fluorinated ether bromide is a critical component in advanced organic synthesis, offering unique properties derived from its perfluorinated ether structure.
- Explore the precise chemical properties and specifications for 1-Bromoperfluoro-2,5,8-trioxadodecane CAS 330562-47-5 properties, including its molecular formula C9BrF19O3 and molecular weight of 596.97.
- Understand the crucial role of perfluoroether bromide synthesis in creating next-generation materials and pharmaceuticals.
- Delve into the diverse high purity fluorinated compounds applications in research and industrial settings.
- Learn why this chemical intermediate 330562-47-5 is a preferred choice for researchers and manufacturers in specialty chemical fields.
Advantages You'll Gain
Exceptional Purity
Achieve reliable and reproducible results with a product guaranteed at 95% purity, essential for demanding organic synthesis building blocks.
Versatile Reactivity
Leverage the reactive bromide group for complex chemical transformations, a key aspect of specialty fluorochemicals development.
Stable Storage
Benefit from the recommended storage conditions: dry, cool, and sealed to maintain product integrity, critical for long-term use of fluorinated ether synthesis components.
Key Applications
Specialty Chemical Synthesis
Utilize this compound as a key reactant in the synthesis of complex molecules, leveraging its unique fluorinated structure for advanced materials.
Material Science Research
Explore its potential in developing novel materials with specific thermal, chemical, and electronic properties, vital for research chemicals for material science.
Advanced Organic Chemistry
Incorporate it into sophisticated reaction pathways to create new fluorinated compounds with tailored functionalities.
Pharmaceutical Intermediates
Its unique structure may lend itself to the development of new pharmaceutical agents, fitting into the realm of advanced fluorinated intermediates.