Unlocking Chemical Innovation with 2-Fluoro-1-iodo-4-methoxybenzene
Explore the potential of CAS 458-51-5, a vital compound for advanced synthesis and pharmaceutical development.
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2-fluoro-1-iodo-4-methoxybenzene
This versatile compound, known by CAS 458-51-5, serves as a crucial building block in complex organic synthesis and medicinal chemistry. Its unique molecular structure, featuring a methoxy group, fluorine atom, and iodine atom on a benzene ring, makes it highly valuable for researchers and manufacturers aiming to create novel pharmaceuticals and advanced materials.
- Leverage 2-fluoro-1-iodo-4-methoxybenzene CAS 458-51-5 for your intricate synthetic pathways.
- Explore the chemical properties of 3-Fluoro-4-iodoanisole to optimize reaction conditions.
- Secure high-purity organic synthesis building blocks essential for groundbreaking research.
- Source reliable pharmaceutical intermediates synthesis to accelerate drug discovery programs.
Key Advantages
Versatile Synthetic Utility
The presence of fluorine and iodine atoms makes this compound exceptionally useful for various coupling reactions, enabling the synthesis of complex molecules with tailored properties, crucial for medicinal chemistry reagents.
High Purity Assurance
With a minimum purity of 98%, this compound meets stringent quality standards, ensuring reliable and reproducible results in your advanced organic building blocks applications.
Accelerated R&D
As a key component in pharmaceutical intermediate sourcing, it helps accelerate the research and development cycle for new drug candidates.
Key Applications
Advanced Organic Synthesis
Utilize this compound as a critical intermediate for constructing complex molecular architectures in custom synthesis for R&D projects.
Pharmaceutical Development
Its structure is ideal for creating active pharmaceutical ingredients (APIs) and novel drug candidates, supporting pharmaceutical intermediate sourcing.
Material Science Innovation
Explore its use in creating functional materials with specific electronic or optical properties through halogenated aromatic synthesis.
Medicinal Chemistry Research
Serves as a valuable tool for medicinal chemists exploring structure-activity relationships and designing new therapeutic agents.