2-Bromo-2',4'-difluoroacetophenone: Your Key to Advanced Chemical Synthesis
Unlocking innovation in pharmaceuticals, materials, and beyond with this essential chemical building block.
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2-Bromo-2',4'-difluoroacetophenone
This critical fine chemical, known by CAS number 102429-07-2, serves as a fundamental building block in numerous advanced scientific applications. Its unique structure, featuring bromine and difluoro substituents, provides enhanced electrophilic character, making it indispensable for creating complex molecular structures.
- Leverage its unique reactivity as a key building block in organic synthesis, enabling the development of novel chemical compounds.
- Explore its utility in pharmaceutical synthesis, where it acts as an important intermediate for drug candidates targeting various diseases.
- Discover its role in material science for developing advanced polymers and coatings with unique performance characteristics.
- Utilize it for creating fluorescent probes, vital for precise biological imaging and cellular process visualization.
Advantages of Using This Compound
Enhanced Reactivity
The presence of bromine and difluoro groups on this molecule significantly boosts its electrophilic nature, facilitating efficient reactions in complex organic synthesis.
Pharmaceutical Development Support
As a vital pharmaceutical intermediate, it aids researchers in the synthesis of compounds that often exhibit improved biological activity and metabolic stability.
Material Performance Improvement
Its incorporation into materials science applications can impart unique chemical properties, leading to enhanced performance in specialty polymers and coatings, making it a sought-after material science intermediate.
Key Applications
Pharmaceutical Synthesis
This compound is a critical intermediate in the synthesis of various pharmaceutical agents. Researchers leverage its structure to create compounds with enhanced therapeutic properties, contributing to advancements in drug discovery. Discover how this pharmaceutical intermediate 102429-07-2 can benefit your research.
Material Science
In material science, it is used to develop advanced polymers and coatings, benefiting from its unique chemical properties that enhance material performance. It serves as a valuable material science intermediate for innovative material development.
Organic Synthesis
As a versatile building block in organic synthesis, it allows for the creation of complex molecular architectures. Its predictable reactivity makes it a preferred choice for chemists worldwide.
Fluorescent Probes and Imaging
The compound plays a role in the creation of fluorescent probes, essential tools for biological imaging and understanding cellular processes with high specificity.