2-Bromo-6-fluorophenol CAS 2040-89-3: Properties, Synthesis, and Applications
A pivotal compound in organic chemistry, serving as a key building block for advanced synthesis.
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2-Bromo-6-fluorophenol
2-Bromo-6-fluorophenol, identified by its CAS number 2040-89-3, is a critical compound in the field of organic synthesis. Its unique structure, featuring both bromine and fluorine on a phenol ring, makes it an indispensable intermediate for creating complex molecules, particularly within the pharmaceutical and agrochemical sectors.
- As a key building block for advanced synthesis, 2-Bromo-6-fluorophenol (CAS 2040-89-3) enables the creation of diverse chemical structures.
- The synthesis of 2-Bromo-6-fluorophenol is crucial for developing novel APIs with improved pharmacological profiles.
- Understanding the properties of 2-Bromo-6-fluorophenol is vital for chemists engaged in precise organic synthesis reactions.
- Users seeking reliable chemical building blocks will find 2-fluoro-6-bromophenol a valuable addition to their synthetic toolkit.
Key Advantages
Versatile Reactivity
The combined presence of bromine and fluorine substituents on the phenol ring of 2-Bromo-6-fluorophenol provides versatile reactivity for various chemical transformations.
Enhanced API Properties
Utilizing 2-Bromo-6-fluorophenol in drug development can lead to APIs with improved metabolic stability and bioavailability, a significant advantage in pharmaceutical synthesis.
Purity and Reliability
With an assay purity of 98% or higher, this compound ensures consistent performance and reliability for both research and industrial applications, making it a preferred choice for organic synthesis building blocks.
Key Applications
Pharmaceutical Synthesis
Serves as a crucial intermediate in the production of Active Pharmaceutical Ingredients (APIs), contributing to the development of new therapeutics.
Agrochemical Development
A valuable building block for the synthesis of advanced agrochemicals, aiding in crop protection and yield enhancement.
Organic Synthesis
Widely used as a versatile intermediate in a broad range of organic synthesis reactions, enabling the creation of complex molecular architectures.
Material Science
Its unique structural properties make it applicable in the development of novel materials with specialized characteristics.