2-Bromo-4-Fluorophenol: A Versatile Intermediate for Pharmaceuticals, Agrochemicals, and Material Science
Unlock new possibilities in drug development and material innovation with this high-value halogenated phenol.
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2-Bromo-4-Fluorophenol
2-Bromo-4-Fluorophenol is a high-value halogenated phenol designed for pharmaceutical and material science applications. Its ortho-bromo and para-fluoro substitution pattern enhances its reactivity, making it a critical component in advanced chemical synthesis.
- Enables the synthesis of essential pharmaceutical intermediates, including those used in CNS drugs and kinase inhibitors, supporting the development of novel therapeutics.
- Valuable in agrochemical synthesis, serving as a core building block for the creation of effective pesticides and herbicides, contributing to sustainable agriculture.
- Integral for liquid crystal materials, where its unique structure contributes to desirable optical properties.
- Facilitates polymer modification, enhancing the performance and characteristics of various polymeric materials.
Key Advantages
Enhanced Reactivity
The strategic placement of bromine and fluorine atoms on the phenolic ring provides enhanced reactivity for diverse organic synthesis building block requirements.
High Purity
Typically supplied with a purity of ≥98% (GC, halogen verified), ensuring reliability for sensitive chemical synthesis processes.
Versatile Applications
Serves a broad spectrum of industries, from pharmaceuticals to agrochemicals and advanced materials, highlighting its versatility for various needs.
Key Applications
Pharmaceutical Intermediates
Utilized in the synthesis of agrochemicals, playing a role in crop protection solutions.
Agrochemical Synthesis
A key component for developing effective pesticides and herbicides, supporting agricultural productivity.
Material Science
Incorporated into advanced materials, including liquid crystals and polymers, to impart specific properties.
Chemical Research
A critical reagent in laboratories for exploring new chemical pathways and synthesizing complex organic molecules.