High-Purity 4-Propyl-3'-Fluorobiphenyl-4'-Boronic Acid: A Key Intermediate for Pharmaceutical and OLED Innovations
Unlock advanced chemical synthesis with our premium boronic acid derivative for groundbreaking applications.
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4-Propyl-3'-Fluorobiphenyl-4'-Boronic Acid
This compound stands as a critical building block for the synthesis of complex organic molecules, finding extensive use in the pharmaceutical industry and in the development of cutting-edge OLED materials. Its precise chemical structure and high purity ensure reliable performance in demanding synthetic pathways.
- As a key 4-Propyl-3'-Fluorobiphenyl-4'-Boronic Acid pharmaceutical intermediate, it facilitates complex organic reactions, crucial for drug development.
- Leverage this high purity boronic acid supplier for your OLED material synthesis needs, ensuring superior electronic performance.
- The versatility of this organic synthesis building block is evident in its use in various Suzuki-Miyaura coupling reactions.
- This fluorinated biphenyl boronic acid offers enhanced chemical properties for advanced material science applications.
Key Advantages
Exceptional Purity
Achieve predictable and reproducible results in your synthetic processes with our compound's assured purity of ≥98.0%, a standard expected from a trusted 4-Propyl-3'-Fluorobiphenyl-4'-Boronic Acid supplier.
Dual Industry Application
Its effectiveness as both a pharmaceutical intermediate and an OLED material component makes it a valuable asset for companies operating in both sectors, highlighting its role as a versatile organic synthesis building block.
Enhanced Reactivity
The strategic placement of fluorine and propyl groups on the biphenyl structure imbues this compound with enhanced reactivity, making it a preferred choice for intricate Suzuki-Miyaura coupling reactions.
Key Applications
Pharmaceutical Synthesis
Utilize this compound as a critical 4-Propyl-3'-Fluorobiphenyl-4'-Boronic Acid pharmaceutical intermediate to build complex molecular architectures for novel drug candidates.
OLED Material Development
Contribute to next-generation display technology by employing this chemical in the synthesis of advanced OLED materials, a key use of fluorinated biphenyl boronic acid.
Organic Synthesis
As a fundamental organic synthesis building block, it enables efficient carbon-carbon bond formation via reactions like Suzuki-Miyaura coupling.
Materials Science
Explore its potential in creating advanced functional materials, leveraging its unique structural properties as a high purity boronic acid supplier.