Fluorene derivatives have carved a significant niche in modern organic synthesis and material science due to their unique structural features and versatile reactivity. Among these, 9,9-Bis[4-(2-acryloyloxyethyloxy)phenyl]fluorene, identified by CAS number 161182-73-6, is a noteworthy compound that serves as a critical intermediate for advanced applications. As a professional manufacturer and supplier of fine chemicals, we recognize the growing demand and the importance of understanding the role of such specialized molecules.

The Fluorene Backbone: A Foundation for Performance

The fluorene moiety, a tricyclic aromatic hydrocarbon, provides a rigid, planar structure that contributes to thermal stability and specific electronic properties in derived compounds. In 9,9-Bis[4-(2-acryloyloxyethyloxy)phenyl]fluorene, this core is functionalized with two acryloyloxyethyloxy phenyl groups. These pendant arms introduce reactive acrylate functionalities, making the molecule suitable for polymerization and further chemical modifications. This structural sophistication is precisely why researchers and industrial chemists seek to buy this compound.

Synthesis and Application Pathways:

  • Polymerization: The presence of two acrylate groups makes it an excellent difunctional monomer. It can undergo free-radical polymerization, often initiated by UV light, to form cross-linked polymer networks. These polymers often exhibit high glass transition temperatures (Tg), good mechanical properties, and excellent optical clarity, making them suitable for advanced coatings, composites, and optical components.
  • OLED Materials: Fluorene derivatives are frequently employed in organic light-emitting diodes (OLEDs) due to their photoluminescent properties and charge transport capabilities. While this specific compound’s primary use might be in polymerization, its fluorene core suggests potential for integration into new electronic material research.
  • Specialty Chemical Intermediates: Beyond direct polymerization, the ester linkages and the aromatic rings offer sites for further chemical transformations, allowing its use as an intermediate in the synthesis of more complex organic molecules. For those engaged in custom synthesis, having reliable access to such building blocks is crucial.

Procuring high-quality intermediates like 9,9-Bis[4-(2-acryloyloxyethyloxy)phenyl]fluorene is essential for reproducible results in synthesis and material development. As a dedicated manufacturer and supplier from China, we ensure our product meets rigorous purity standards, supporting your research and production needs effectively. If you are looking to buy this advanced fluorene derivative, consider a supplier committed to excellence and consistent supply.

Our role as a manufacturer means we can offer this vital chemical synthesis material with confidence in its quality and availability. We invite R&D scientists and procurement managers to inquire about pricing and sample availability to explore its potential in your next project.