Perfluorooctyl Iodide: Properties, Applications, and Chemical Synthesis Insights
Discover the essential properties and diverse applications of this key fluorochemical.
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Perfluorooctyl Iodide
Perfluorooctyl Iodide (C8F17I) is a crucial fluorochemical intermediate with a molecular weight of 545.96300. It is recognized for its distinct physical properties and its significant role in various advanced industries. This compound serves as a building block in the synthesis of novel materials and is instrumental in pharmaceutical research and development.
- This article explores the chemical properties of Perfluorooctyl Iodide, including its appearance as a pink solid and its density.
- We will examine the diverse applications of C8F17I, from its use in creating new materials to its importance in pharmaceutical R&D.
- The role of fluorination technology research in advancing the capabilities of the chemical industry will be discussed.
- Understanding the development of comprehensive fluorochemical product platforms provides insights into efficient supply chains for specialty chemicals.
Advantages Offered by the Product
Versatile Chemical Intermediate
Leveraging Perfluorooctyl Iodide as a versatile chemical intermediate enables the synthesis of complex fluorinated compounds vital for advanced applications.
Enabling Innovation in Materials Science
The unique properties of C8F17I facilitate innovation in new materials science, pushing the boundaries of performance and functionality.
Critical for Pharmaceutical Synthesis
Its role as a key component in pharmaceutical R&D highlights its importance in the development of new therapeutic agents.
Key Applications
New Materials Manufacturing
Perfluorooctyl Iodide is integral to the creation of novel materials with enhanced properties, crucial for industries seeking cutting-edge solutions.
Pharmaceutical Research & Development
In pharmaceutical R&D, this fluorinated compound serves as a valuable building block for synthesizing potential drug candidates and intermediates.
Pesticide Development
Its chemical structure makes it useful in the development of new pesticides, contributing to advancements in agricultural chemistry.
Organocatalysis
Perfluorooctyl Iodide is employed in organocatalysis, where it activates substrates through halogen bonding, offering efficient catalytic pathways.