4-Fluoro-4'-hydroxybiphenyl (CAS 324-94-7): Synthesis, Applications, and Biological Activity Analysis
Exploring the synthesis, material science applications, and critical biological activity of 4-Fluoro-4'-hydroxybiphenyl.
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4-Fluoro-4'-hydroxybiphenyl
4-Fluoro-4'-hydroxybiphenyl (CAS 324-94-7) is a valuable chemical compound widely recognized for its role in advanced material development and as a crucial intermediate in the pharmaceutical industry. Its unique structure, featuring both fluorine and hydroxyl groups on a biphenyl core, imparts specific electronic and chemical properties that are highly sought after.
- Understanding the 4-Fluoro-4'-hydroxybiphenyl synthesis pathways is key to its industrial production, with Suzuki-Miyaura cross-coupling being a primary method.
- Exploring the applications of 4-Fluoro-4'-hydroxybiphenyl in material science, especially in the development of liquid crystals and OLEDs, highlights its technological importance.
- The biological activity of 4-Fluoro-4'-hydroxybiphenyl, particularly its cytochrome P450 enzyme inhibition, is critical for its pharmacological evaluation.
- As a key pharmaceutical intermediate, its use in creating NSAIDs demonstrates its value in drug development.
Advantages Offered by the Product
Versatile Synthesis
The compound benefits from well-established 4-Fluoro-4'-hydroxybiphenyl synthesis routes, ensuring consistent supply for various industries.
Material Science Innovation
Its unique electronic properties make it an ideal building block for advanced liquid crystal materials and organic light-emitting diodes (OLEDs).
Pharmacological Significance
The compound's interaction with cytochrome P450 enzymes opens avenues for novel drug development and understanding drug metabolism.
Key Applications
Material Science
Essential for developing advanced Liquid Crystals and Organic Light-Emitting Diodes (OLEDs) due to its specific electronic properties.
Pharmaceutical Synthesis
Serves as a critical intermediate in the synthesis of pharmaceuticals, notably nonsteroidal anti-inflammatory drugs (NSAIDs).
Organic Synthesis
A valuable building block in complex organic synthesis, enabling the creation of novel chemical compounds with tailored properties.
Biological Research
Investigated for its role in drug metabolism and potential therapeutic effects, particularly its cytochrome P450 enzyme inhibition.