2,4'-Difluorobenzophenone: Properties, Applications, and Synthesis
Explore the essential chemical intermediate that drives innovation in polymers, pharmaceuticals, and advanced materials.
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2,4'-Difluorobenzophenone
A critical chemical intermediate with a unique difluorinated aromatic ketone structure, enabling advancements in high-performance polymers and serving as a versatile scaffold in drug discovery. Its properties allow for diverse applications in advanced materials and organic synthesis.
- Leverage 2,4'-difluorobenzophenone synthesis methods for efficient production, exploring Friedel-Crafts acylation and Suzuki coupling for high purity.
- Investigate the medicinal chemistry scaffold of difluorobenzophenone derivatives for potential therapeutic agents, focusing on structure-activity relationships.
- Understand the chemical intermediate properties, including spectral characteristics and reactivity, to optimize its use in various synthetic pathways.
- Explore photophysical properties of benzophenone derivatives to unlock applications in optoelectronics and photoresponsive materials.
Key Advantages
Versatile Building Block
As a key chemical intermediate, its difluorinated structure offers significant versatility in organic synthesis, allowing for the creation of complex molecules and polymers.
High-Performance Polymer Monomer
Serves as a crucial monomer in the production of advanced polymers like PAEKs and PEIs, imparting excellent thermal stability and mechanical strength.
Drug Discovery Potential
Acts as a valuable scaffold in medicinal chemistry, enabling the design of novel therapeutic agents with tunable properties through structure-activity relationships.
Key Applications
Polymer Synthesis
Utilized as a monomer in the synthesis of high-performance polymers such as Poly(aryl ether ketone)s (PAEKs) and Poly(ether imide)s (PEIs), offering enhanced thermal and mechanical properties.
Medicinal Chemistry
Serves as a scaffold for the development of bioactive molecules, with fluorine substitution influencing lipophilicity and target interactions for potential therapeutic applications.
Organic Synthesis
Acts as a key intermediate and building block for synthesizing complex organic molecules, including fluorinated heterocycles, important in pharmaceuticals and agrochemicals.
Agrochemical Intermediates
Functions as an intermediate in the synthesis of pesticides, notably in the production of fungicides like Flutriafol.