2,7-Dibromo-9,9-difluoro-9H-Fluorene: A Key Intermediate for Modern Chemical Innovation
Unlock advanced synthesis possibilities with our high-purity dibromodifluorofluorene, a vital component for pharmaceuticals and UV-curing technologies.
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2,7-Dibromo-9,9-difluoro-9H-fluorene
This chemical is a vital building block in advanced synthesis processes, particularly recognized as a crucial intermediate for Ledipasvir, an antiviral drug used in the treatment of Hepatitis C.
- Leverage the unique chemical properties of 2,7-Dibromo-9,9-difluoro-9H-fluorene CAS 1229603-71-7 for complex organic reactions.
- Ensure high purity for your synthesis needs, with standard specifications typically exceeding 98.0% assay.
- Explore its role within UV-Curing Materials, specifically as a photoinitiator, enabling efficient curing processes.
- Source this essential fine chemical intermediate from reliable manufacturers in China for consistent quality and supply.
Key Advantages Provided
Enhanced Reactivity
The presence of bromine and fluorine atoms at specific positions on the fluorene backbone enhances its reactivity, making it highly effective in complex organic reactions for synthesis of Ledipasvir intermediate.
Exceptional Purity
With an assay of u226598.0%, this compound guarantees the high purity required for demanding pharmaceutical applications and advanced chemical synthesis.
Thermal Stability
Its high boiling point (361.5ºC) and flash point (172.5ºC) suggest significant thermal stability, crucial for processes involving high-temperature treatments.
Key Applications
Pharmaceutical Synthesis
A critical component in the synthesis of the antiviral drug Ledipasvir, highlighting its importance in the pharmaceutical sector.
UV-Curing Materials
Utilized within UV-Curing Materials, potentially acting as a photoinitiator to facilitate rapid curing processes in coatings and inks.
Advanced Organic Synthesis
Serves as a versatile building block for complex organic reactions, enabling the creation of novel molecules and materials.
Materials Science Research
The unique fluorene structure with halogen substitutions offers potential for use in developing new electronic materials and polymers.