6-Cyano-2-naphthol: Key Intermediate for Pharmaceuticals and Advanced Materials
Discover the vital role of 6-Cyano-2-naphthol in drug synthesis and innovative material development.
Get a Quote & SampleProduct Core Value
6-Cyano-2-naphthol
6-Cyano-2-naphthol, identified by CAS number 52927-22-7, is a crucial aromatic compound serving as a fundamental building block in the chemical industry. Its primary significance lies in its application as a key intermediate for the synthesis of Nafamostat mesilate, a compound with significant therapeutic applications. Beyond pharmaceuticals, its unique chemical properties, including its nature as a superphotoacid, make it invaluable in advanced material science, particularly in developing materials with enhanced conductivity and specific photophysical behaviors.
- Unlock Pharmaceutical Potential: As a critical pharmaceutical intermediate, 6-Cyano-2-naphthol is indispensable for synthesizing drugs like Nafamostat mesilate, contributing to advancements in medical treatments.
- Drive Chemical Synthesis Innovation: This compound acts as a versatile reactant in various chemical reactions, including palladium-catalyzed reduction, nickel-catalyzed cross-coupling, and Heck reactions, facilitating the creation of complex organic molecules.
- Advance Material Science: Its properties as a superphotoacid and its ability to protonate conductive polymers make 6-Cyano-2-naphthol a valuable component in developing next-generation functional materials and electronic applications.
- Explore Diverse Chemical Properties: With a melting point typically between 165.5-170.5 °C and a molecular formula of C11H7NO, it offers a specific profile for precise chemical reactions and applications.
Key Advantages
Versatile Intermediate
Leverage the extensive utility of 6-Cyano-2-naphthol as a foundational component in both pharmaceutical synthesis and broader organic chemistry, enabling a wide array of derivative products.
Enhanced Conductivity Materials
Explore the potential of 6-Cyano-2-naphthol in creating advanced materials that exhibit improved conductivity, opening doors for applications in electronics and energy storage.
Facilitates Complex Reactions
Utilize this compound as a key reactant in sophisticated catalytic processes such as palladium-catalyzed Heck reactions, crucial for the efficient construction of complex organic structures.
Key Applications
Pharmaceutical Synthesis
Essential as an intermediate for the production of Nafamostat mesilate, highlighting its critical role in the pharmaceutical industry and drug development.
Organic Synthesis
Serves as a reactive building block in various catalytic cross-coupling reactions, enabling the efficient synthesis of diverse organic molecules.
Material Science
Its unique photophysical properties make it a valuable component for developing advanced materials with tailored electrical and optical characteristics.
Liquid Crystal Precursors
Identified as a building block for liquid crystals, underscoring its utility in display technologies and advanced optical materials.