Unlock Innovation with 5-Fluoro-2-Methylbenzonitrile
Your essential building block for advanced pharmaceuticals and agrochemicals. Discover superior purity and performance.
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5-Fluoro-2-Methylbenzonitrile
As a high-value fluorinated aromatic compound, 5-Fluoro-2-Methylbenzonitrile is indispensable for the synthesis of critical pharmaceutical intermediates and agrochemical research. Its unique structure, featuring both fluoro and methyl substituents, significantly enhances reactivity and metabolic stability, making it a preferred choice for developing advanced bioactive molecules.
- Leverage 5-Fluoro-2-Methylbenzonitrile CAS 77532-79-7 as a key building block for advanced organic synthesis, enabling the creation of complex molecular structures.
- This compound is a vital pharmaceutical intermediate for drug discovery programs, particularly in creating CNS drugs and kinase inhibitors.
- Benefit from the excellent chemical stability and balanced lipophilicity of this fluorinated aromatic compound, facilitating efficient optimization in research.
- Utilize this essential material for agrochemical research, contributing to the development of new and effective crop protection agents.
Key Advantages
Enhanced Reactivity and Stability
The synergistic effect of fluoro and methyl substituents in 5-Fluoro-2-Methylbenzonitrile enhances both reactivity and metabolic stability, crucial for developing effective bioactive molecules.
Versatile Synthesis Applications
As a versatile building block, it's essential for constructing heterocyclic compounds, making it highly sought after in medicinal chemistry and various organic synthesis pathways.
Facilitates Drug Discovery
Its well-balanced properties make 5-Fluoro-2-Methylbenzonitrile instrumental in drug discovery programs, aiding in the optimization of potential therapeutic agents.
Key Applications
Pharmaceutical Intermediates
As a crucial pharmaceutical intermediate for drug discovery, it aids in synthesizing molecules targeting complex diseases.
Agrochemical Research
This compound is vital for agrochemical research, serving as a key building block in the creation of novel crop protection chemicals.
Organic Synthesis
Its versatile nature makes it an indispensable tool for organic synthesis, enabling chemists to build complex molecular architectures.
Material Science
The unique properties of this fluorinated compound are also explored in material science applications for developing advanced materials.