2-Bromo-4-iodobenzaldehyde: A Key Intermediate for Advanced Synthesis
Discover the critical role of this versatile organic building block in modern pharmaceutical and chemical research.
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2-Bromo-4-iodobenzaldehyde
2-Bromo-4-iodobenzaldehyde (CAS 261903-03-1) is a vital organic compound characterized by its unique structure incorporating bromine and iodine atoms on a benzaldehyde core. This molecular configuration makes it an exceptionally useful intermediate in complex organic synthesis pathways, particularly in the development of novel pharmaceuticals and advanced materials.
- Leveraging 2-bromo-4-iodobenzaldehyde synthesis for efficient chemical production: This compound is essential for creating sophisticated molecular architectures.
- Explore the detailed 261903-03-1 chemical properties for your research needs: Understanding its melting point and purity is key to successful reactions.
- Buy 2-bromo-4-iodobenzaldehyde to advance your pharmaceutical building blocks strategy: Its versatility allows for incorporation into a wide range of drug candidates.
- Utilize this compound as a critical part of your organic synthesis intermediates toolkit: Its reactive sites facilitate diverse chemical transformations.
Advantages Provided by the Product
Versatile Reactivity
The presence of both bromine and iodine atoms on the aromatic ring provides distinct reaction sites, enabling selective functionalization and making it a cornerstone for organic synthesis.
High Purity Grades
Available in high purity levels (up to 99%), ensuring reliable and reproducible results in sensitive research and manufacturing processes, crucial for pharmaceutical intermediates.
Broad Application Scope
Serves as a fundamental component in the synthesis of heterocycles, dyes, and functional materials, extending its utility beyond basic chemical building blocks.
Key Applications
Pharmaceutical Research
An indispensable component in drug discovery, facilitating the creation of complex active pharmaceutical ingredients (APIs) as one of the vital pharmaceutical building blocks.
Fine Chemical Synthesis
Used extensively as an intermediate in the production of fine chemicals, leveraging its unique structure for various synthetic pathways and offering solutions for organic synthesis.
Material Science
Applicable in the development of advanced materials, including optoelectronic components and specialty polymers, showcasing its role beyond basic chemical building blocks.
Agrochemical Development
Contributes to the synthesis of novel agrochemicals, aiding in the development of effective crop protection solutions by acting as a key organic synthesis intermediate.