3-Fluoro-4-aminobenzonitrile: A Versatile Intermediate for Pharmaceutical Synthesis and Advanced Materials
Explore the essential properties, synthesis, and diverse applications of CAS 63069-50-1, a vital chemical building block.
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3-Fluoro-4-aminobenzonitrile
This compound is a highly versatile organic intermediate, characterized by its unique combination of functional groups: an amino group (-NH₂), a fluorine atom (-F), and a nitrile group (-C≡N) attached to a benzene ring. This trifunctional nature makes it an invaluable building block for a wide array of complex organic molecules, finding significant utility in pharmaceutical synthesis and the development of advanced materials. Its applications span from creating vital pharmaceutical intermediates to contributing to the electronic and optical properties of next-generation OLEDs and liquid crystals. Leveraging its structure, buy 3-fluoro-4-aminobenzonitrile for your synthesis needs.
- Introduction to Organic Synthesis: This compound is a cornerstone for organic synthesis, providing a reliable starting point for numerous chemical transformations. Its specific structure aids in the synthesis of complex organic molecules, making it a sought-after chemical intermediate.
- Pharmaceutical Intermediate Capabilities: As a pharmaceutical intermediate, it plays a critical role in the development of drugs, including potential anticancer agents and DPP-4 inhibitors for diabetes treatment, showcasing its importance in medicinal chemistry.
- Advanced Material Precursor: Its unique electronic properties, influenced by the fluoro and cyano groups, make it an excellent precursor for advanced materials such as organic light-emitting diodes (OLEDs) and liquid crystals, crucial for display technologies.
- Green Synthesis Applications: Research into its synthesis highlights its compatibility with green chemistry principles, utilizing methods like microwave-assisted reactions and recyclable catalysts for more sustainable production routes.
Key Advantages
Synthetic Versatility
The presence of reactive amino, fluoro, and cyano groups offers multiple sites for chemical modification, enabling diverse synthetic pathways and the creation of a broad spectrum of derivatives. Explore different synthesis of 4-amino-3-fluorobenzonitrile to meet your project needs.
Drug Development Potential
Its structure serves as a valuable scaffold in medicinal chemistry, particularly for designing molecules with potential therapeutic applications, including enzyme inhibitors and receptor modulators, highlighting its role in pharmaceutical intermediate advancements.
Material Property Enhancement
Incorporating this compound into materials like polymers, OLEDs, or liquid crystals can impart desirable properties such as enhanced thermal stability, tunable electronic characteristics, and improved display performance.
Key Applications
Pharmaceuticals
Used as a key building block in the synthesis of active pharmaceutical ingredients (APIs), contributing to the development of novel drugs for various therapeutic areas.
Organic Synthesis
A versatile intermediate for a wide range of chemical transformations, facilitating the creation of complex organic molecules and diverse functionalized compounds.
Material Science
Precursor for advanced materials like OLED emitters and liquid crystal components, leveraging its electronic and structural properties for display and electronic applications.
Agrochemicals
Potential intermediate in the synthesis of specialized pesticides and herbicides, contributing to crop protection solutions.