Exploring 3-Fluoro-4'-pentyl-biphenylboronic Acid: A Key Pharmaceutical Intermediate
Unlock advanced drug synthesis with this crucial building block for biaryl compound creation.
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3-Fluoro-4'-pentyl-biphenylboronic acid
This compound serves as a vital pharmaceutical intermediate, expertly crafted for complex organic synthesis. Its structure is ideal for facilitating crucial carbon-carbon bond formations, particularly through the renowned Suzuki-Miyaura coupling reaction, which is indispensable for creating the biaryl structures prevalent in many active pharmaceutical ingredients (APIs).
- Leverage the power of Suzuki-Miyaura coupling for robust carbon-carbon bond formation with this key pharmaceutical intermediate.
- Enhance drug design by incorporating its fluorine atom, which contributes to improved lipophilicity and metabolic stability.
- Accelerate your drug discovery and development timelines with a reliable organic synthesis building block.
- Ensure high-stakes pharmaceutical processes are supported by a compound with exceptional purity, boasting an assay of ≥98.0%.
Advantages Offered
Enhanced Reactivity
The specific molecular configuration of 3-Fluoro-4'-pentyl-biphenylboronic acid, featuring a fluorine atom and a pentyl substituent on the biphenyl group, offers enhanced reactivity and specificity, making it a sought-after asset in pharmaceutical research and development.
Critical for Biaryl Synthesis
As a key intermediate in organic synthesis, it is pivotal for constructing the complex biaryl compounds that form the backbone of many modern pharmaceuticals.
High Purity and Consistency
With a water content of ≤0.50% and an assay of ≥98.0%, this compound guarantees the precision and reliability required in demanding pharmaceutical applications.
Key Applications
Pharmaceutical Synthesis
Primarily used as a pharmaceutical intermediate, it's instrumental in the synthesis of various APIs targeting diseases.
Medicinal Chemistry
Its unique structure allows medicinal chemists to fine-tune the pharmacological profiles of new drug candidates.
Biaryl Compound Formation
Essential for creating complex biaryl structures, a common motif in many therapeutic agents.
Custom Synthesis Projects
Serves as a reliable building block for bespoke synthesis projects in advanced chemical research.