In the realm of organic chemistry and pharmaceutical synthesis, specific molecular structures serve as invaluable linchpins for creating complex and therapeutically significant compounds. One such compound, 2,7-Dichloro-alpha-[(dibutylamino)methyl]-9H-fluorene-4-methanol (CAS 69759-61-1), is recognized for its utility as a versatile chemical intermediate. Its unique architecture, featuring a fluorene core, chlorine substituents, and an amino alcohol side chain, makes it a prized asset for chemists engaged in various synthesis projects.

The fluorene moiety itself is a rigid, planar tricyclic aromatic system that provides a stable and expandable scaffold. The presence of chlorine atoms at the 2 and 7 positions on the fluorene ring influences the electronic properties and reactivity of the molecule, often directing further chemical modifications. Coupled with the alpha-amino alcohol functionality, 2,7-Dichloro-alpha-[(dibutylamino)methyl]-9H-fluorene-4-methanol offers multiple sites for targeted chemical reactions. This makes it an excellent starting material or intermediate when researchers seek to buy specific chemical building blocks for novel molecule development.

The primary application highlighted for this compound is its role in the synthesis of Active Pharmaceutical Ingredients (APIs). As a precursor, it facilitates the construction of larger, more complex drug molecules. For instance, its known utility in the pathway towards antimalarial agents underscores its importance in medicinal chemistry. When engaging in drug discovery, the ability to source reliable intermediates like CAS 69759-61-1 from a trusted manufacturer is crucial for efficient research and development.

Beyond its direct role in API synthesis, the chemical structure of 2,7-Dichloro-alpha-[(dibutylamino)methyl]-9H-fluorene-4-methanol can be a subject of interest for custom synthesis projects. Organic synthesis labs and contract research organizations (CROs) may utilize it as a starting point for exploring new chemical entities with potential applications in various fields, not limited to pharmaceuticals. The availability from chemical suppliers means that researchers can readily acquire this compound to investigate its reactivity and potential transformations.

When considering the procurement of such an intermediate, understanding its properties is essential. The typical appearance as a light yellow to yellow powder, a molecular weight of approximately 406.39 g/mol, and a high purity (often 98.7%) are key specifications. These details are crucial for ensuring that the compound is suitable for intended synthetic routes. Comparing price quotes from different suppliers should always be done in conjunction with an evaluation of the quality and reliability of the supply chain.

In essence, 2,7-Dichloro-alpha-[(dibutylamino)methyl]-9H-fluorene-4-methanol exemplifies the importance of specialized intermediates in modern chemical synthesis. Its fluorene core and functional groups provide a valuable foundation for creating diverse and complex molecules. If you are involved in advanced organic synthesis or pharmaceutical development and need to purchase this intermediate, identifying a dependable supplier committed to quality will be instrumental to your project's success.