For professionals in the chemical and pharmaceutical industries, a deep understanding of specific chemical compounds is vital for successful research and development. N-(9,9-dimethyl-9H-fluoren-2-yl)-4-Dibenzofuranamine, identified by its CAS number 1426933-82-5, is one such compound that holds significant interest as a pharmaceutical intermediate. This article aims to provide comprehensive insights into its chemical properties and applications, guiding purchasing managers and research scientists in their procurement and utilization decisions.

Chemical Identity and Structure

N-(9,9-dimethyl-9H-fluoren-2-yl)-4-Dibenzofuranamine is a complex organic molecule with the molecular formula C27H21NO. Its molecular weight is approximately 375.46 g/mol. The structure features a fluorene core substituted with two methyl groups at the 9-position, linked via an amine bridge to a dibenzofuran moiety. This unique architecture imparts specific reactivity and electronic properties, making it a valuable building block in advanced organic synthesis.

Key Chemical Properties

While detailed physical properties like melting point and solubility are often provided in a supplier's Certificate of Analysis (CoA), the inherent chemical properties of N-(9,9-dimethyl-9H-fluoren-2-yl)-4-Dibenzofuranamine are crucial for its application:

  • Amine Reactivity: The secondary amine group (-NH-) is a key functional site, capable of undergoing various reactions such as alkylation, acylation, and condensation, which are fundamental in building larger molecular structures.
  • Aromatic System: The extensive aromatic systems of the fluorene and dibenzofuran rings contribute to the compound's stability and can participate in electrophilic aromatic substitution reactions under specific conditions.
  • Steric Hindrance: The presence of the geminal dimethyl groups at the 9-position of the fluorene core can influence the steric accessibility of adjacent reaction sites, potentially directing regioselectivity in certain reactions.
  • Electronic Properties: The electron-rich aromatic systems can play a role in charge transfer or act as chromophores, which might be relevant in certain material science applications or as signaling elements in drug discovery.

Applications in Pharmaceutical Synthesis

The primary application for N-(9,9-dimethyl-9H-fluoren-2-yl)-4-Dibenzofuranamine is as a pharmaceutical intermediate. Its specific structural features make it suitable for incorporation into molecules designed for various therapeutic targets. R&D scientists often procure this compound to explore new synthetic routes for:

  • Novel API Development: As a building block, it can be used to synthesize complex APIs with potentially improved pharmacological profiles.
  • Drug Candidate Screening: Researchers may utilize it in combinatorial chemistry efforts or targeted synthesis programs to create libraries of compounds for screening against specific biological targets.
  • Process Optimization: For established drug candidates that require modification or synthesis optimization, this intermediate can offer a more efficient pathway.

When you are looking to buy N-(9,9-dimethyl-9H-fluoren-2-yl)-4-Dibenzofuranamine, it is essential to work with a reliable manufacturer and supplier who can provide detailed specifications and ensure high purity. Understanding these properties will enable you to effectively integrate this compound into your synthesis strategies and maximize the value you gain from your purchase. Obtaining a precise price quote from a trusted source is the first step towards leveraging this versatile intermediate.