1,3-Difluoroacetone CAS: 453-14-5
Catalog Number | XD93561 |
Product Name | 1,3-Difluoroacetone |
CAS | 453-14-5 |
Molecular Formula | C3H4F2O |
Molecular Weight | 94.06 |
Storage Details | Ambient |
Product Specification
Appearance | White powder |
Assay | 99% min |
1,3-Difluoroacetone is a chemical compound with the molecular formula C3H4F2O. It is an organic molecule that contains two fluorine atoms attached to a ketone group. 1,3-Difluoroacetone has several potential uses in various fields, thanks to its unique chemical properties.One significant application of 1,3-difluoroacetone is its use as a building block in the synthesis of pharmaceutical compounds. The presence of the ketone functional group makes it a versatile intermediate compound for the production of complex organic molecules. Chemists can perform reactions such as reduction, oxidation, and nucleophilic addition on 1,3-difluoroacetone to introduce different substituents and functional groups, thereby creating new pharmaceutical molecules.Beyond pharmaceuticals, 1,3-difluoroacetone has potential uses as a solvent or reagent in chemical reactions. Its fluoroalkyl group confers unique properties such as increased lipophilicity and stability, making it useful in specific organic reactions that require harsh conditions or the presence of fluorinated molecules.Additionally, 1,3-difluoroacetone can be employed as a starting material for the synthesis of fluorinated polymers. Polymers with fluorinated segments often exhibit desirable properties such as enhanced chemical resistance, thermal stability, and low surface energy. By incorporating 1,3-difluoroacetone into the polymerization process, these beneficial characteristics can be introduced into the resulting materials.Another potential application of 1,3-difluoroacetone is as a reagent in organic synthesis. Its unique chemical structure allows it to react with various functional groups, such as amines, alcohols, and thiols, enabling the formation of new carbon-carbon or carbon-heteroatom bonds. Such reactions are vital for the construction of complex organic molecules in fields like medicinal chemistry and materials science.Furthermore, 1,3-difluoroacetone's unique properties make it a potential candidate for use in various industrial processes, including chemical manufacturing and materials fabrication. Its stability and reactivity profile can lend itself to transformations that improve the efficiency, yield, or quality of industrial processes.In conclusion, 1,3-difluoroacetone is a versatile compound that offers multiple potential applications across various fields. Its ability to serve as a building block for pharmaceutical synthesis, a reagent for organic transformations, and a precursor for fluorinated polymers makes it valuable in chemical research, industrial processes, and materials development. Overall, 1,3-difluoroacetone presents an opportunity for innovation and advancement in numerous scientific and technical applications.