High-Quality 4-Amino-2-Fluorobenzonitrile CAS 53312-80-4: A Versatile Intermediate for Pharmaceuticals and Materials Science
Unlock advanced synthesis with our premium fluorinated aromatic building block. Discover its potential.
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4-Amino-2-Fluorobenzonitrile
As a premium fluorinated aromatic building block, 4-Amino-2-Fluorobenzonitrile is designed for advanced pharmaceutical and material science applications. This para-amino substituted benzonitrile is a crucial intermediate in synthesizing various compounds, including kinase inhibitors, antidepressant agents, and high-performance polymers. Its unique substitution pattern allows for regiospecific functionalization, while the fluorine atom enhances both electronic properties and metabolic stability. This makes it especially valuable for constructing fused heterocycles and as a precursor for fluorinated polyimides in electronic materials. Explore the possibilities with this essential 4-Amino-2-Fluorobenzonitrile CAS 53312-80-4.
- Leverage its role as a crucial intermediate in synthesizing kinase inhibitors and antidepressant agents, key for advancing pharmaceutical research.
- Utilize it as a precursor for fluorinated polyimides, enabling innovation in electronic materials.
- Benefit from its unique structure that facilitates regiospecific functionalization in complex organic synthesis.
- Enhance product stability and electronic properties due to the presence of the fluorine atom.
Advantages Offered by the Product
Synthesis Versatility
Its chemical versatility makes 4-Amino-2-Fluorobenzonitrile a highly adaptable building block for creating more complex molecules, essential for the pharmaceutical and agrochemical sectors.
Enhanced Stability
The fluorine atom imparts improved metabolic stability and bioavailability to synthesized compounds, a significant advantage in drug development.
Precision Chemistry Enabler
This compound is critical for precision chemistry, enabling the development of advanced dyes, liquid crystal materials, and specialty chemicals.
Key Applications
Pharmaceutical Synthesis
As a vital intermediate, it supports the creation of novel drug candidates, particularly kinase inhibitors and antidepressant agents.
Advanced Materials
It serves as a precursor for high-performance materials like fluorinated polyimides used in cutting-edge electronic applications.
Organic Chemistry Building Block
The compound's structure enables complex molecule construction, facilitating advancements in various chemical synthesis pathways.
Specialty Chemicals
Its unique properties make it suitable for developing specialized chemical products across diverse industrial sectors.