4-Bromo-2-iodophenol: A Versatile Intermediate in Chemical Synthesis
Explore the essential properties and applications of this key compound for your research needs.
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4-Bromo-2-iodophenol
4-Bromo-2-iodophenol is a critical organic intermediate, recognized for its unique structure featuring both bromine and iodine substituents on a phenol ring. This makes it a versatile building block for various complex organic synthesis pathways. Its well-defined chemical properties and availability from reliable sources ensure its utility in advanced chemical research and development.
- Discovery of novel synthesis pathways can be significantly aided by understanding the detailed 4-bromo-2-iodophenol synthesis methods.
- Researchers leverage CAS 207115-22-8 chemical properties for precise molecular design and reaction optimization.
- The versatility of 4-bromo-2-iodophenol applications extends to creating advanced materials with tailored functionalities.
- As a key halophenol derivative in research, it facilitates the exploration of new chemical transformations.
Advantages of Using 4-Bromo-2-iodophenol
Facilitates Complex Organic Synthesis
The dual halogenation offers multiple reaction sites, making it ideal for intricate 4-bromo-2-iodophenol synthesis procedures that lead to complex molecules.
Enables Material Innovation
Its application in materials science, particularly in optoelectronics, showcases its role in driving innovation through its unique structural attributes.
Reliable Research Chemical
With high purity standards and consistent supply, it ensures reproducibility in experimental outcomes for 4-bromo-2-iodophenol applications in academic and industrial research.
Key Applications
Organic Synthesis
As a fundamental building block, it is widely used in various coupling reactions and derivatizations, crucial for 4-bromo-2-iodophenol synthesis of target compounds.
Pharmaceutical Research
Its structure is valuable for synthesizing potential drug candidates, contributing to the development of new pharmaceutical intermediates.
Materials Science
Used in the creation of novel optoelectronic materials and specialty polymers due to its specific electronic and structural properties.
Chemical Intermediate Production
A vital component in the production of other fine chemicals, demonstrating its broad utility across the chemical industry.