High-Purity 2,7-Dibromo-9,9-difluoro-9H-fluorene: Key Intermediate for Pharmaceutical Synthesis and Advanced Materials
Discover the essential properties and applications of this vital fine chemical building block.
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2,7-Dibromo-9,9-difluoro-9H-fluorene
This compound is a critical building block in advanced organic synthesis, particularly recognized for its role as a key intermediate in the production of pharmaceuticals. Its unique structure, featuring bromine and fluorine atoms on a fluorene backbone, makes it invaluable for creating complex molecular architectures.
- Discover the crucial role of this compound as a 2,7-Dibromo-9,9-difluoro-9H-fluorene intermediate in complex organic synthesis pathways.
- Explore the applications of CAS 1229603-71-7 pharmaceutical applications, ensuring high efficacy in drug development.
- Understand why this high purity dibromodifluorofluorene is essential for reliable Ledipasvir synthesis raw material production.
- Learn about sourcing this fluorene derivative chemical supplier for your advanced research needs.
Advantages This Product Brings
Exceptional Purity
With an assay typically exceeding 98.0%, this compound ensures reliable results in sensitive synthesis processes, crucial for achieving high-quality pharmaceutical products when sourced from a trusted fine chemical intermediates China supplier.
Versatile Reactivity
The strategic placement of bromine and fluorine atoms on the fluorene structure offers versatile reactivity, enabling its use in a wide array of organic reactions, fitting well with the requirements for advanced organic synthesis.
Critical Pharmaceutical Role
Its significance as a key intermediate in the synthesis of Ledipasvir highlights its importance in the pharmaceutical industry, providing a vital link in the development of effective treatments.
Key Applications
Pharmaceutical Intermediates
Serving as a critical building block for active pharmaceutical ingredients (APIs), this compound is instrumental in the synthesis of complex drug molecules, making it a sought-after material for pharmaceutical applications.
Organic Synthesis
Its well-defined chemical structure and reactive sites make it a valuable reagent for chemists engaged in intricate organic synthesis, enabling the creation of novel compounds and materials.
Materials Science Research
The fluorene backbone, coupled with halogen substitutions, suggests potential applications in the development of advanced materials, such as in organic electronics and specialized polymers.
Chemical Research and Development
Used in research laboratories to explore new chemical reactions, develop novel synthetic routes, and investigate the properties of fluorene derivatives, contributing to advancements in chemistry.