3-Hydroxy-4-(trifluoromethyl)benzonitrile: A Key Intermediate in Pharmaceutical Synthesis and Advanced Materials
Discover the essential role of this versatile chemical compound in modern research and industry.
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3-Hydroxy-4-(trifluoromethyl)benzonitrile
This compound serves as a crucial building block in organic synthesis, underpinning advancements in pharmaceuticals and material science. Its unique structure, featuring a hydroxyl group and a trifluoromethyl moiety on a benzonitrile core, makes it highly reactive and versatile for complex molecular construction.
- Explore the synthesis of complex molecules using this vital organic synthesis building block.
- Understand the benefits of trifluoromethyl benzonitrile pharmaceutical intermediate in drug development pathways.
- Learn about the potential of this compound as an electrolyte additive for lithium ion battery applications.
- Discover the chemical reactions and applications of CAS 731002-50-9 chemical intermediate in various scientific fields.
Product Advantages
Versatile Synthesis Intermediate
Leverage its unique functional groups for diverse organic synthesis pathways, enabling the creation of intricate chemical structures vital for pharmaceutical research.
Key Pharmaceutical Building Block
Functioning as a critical trifluoromethyl benzonitrile pharmaceutical intermediate, it facilitates the development of novel therapeutic agents.
Emerging Battery Material Component
Investigate its promising role as an electrolyte additive for lithium ion battery technologies, enhancing performance and stability.
Key Applications
Pharmaceutical Synthesis
As a key pharmaceutical intermediate, this compound is instrumental in the synthesis of active pharmaceutical ingredients (APIs), contributing to the development of new medicines.
Organic Synthesis
Its role as an organic synthesis building block allows chemists to construct complex molecular architectures essential for both academic research and industrial applications.
Material Science
The unique properties of this trifluoromethylated compound make it a valuable component in the development of advanced materials with specific functionalities.
Energy Storage
Its potential as an electrolyte additive for lithium ion batteries highlights its contribution to the advancement of energy storage solutions.