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Ethyl difluorobromoacetate is an important raw material for chemical production, which has a wide range of uses and unique properties. This article will introduce the properties and uses of ethyl difluorobromoacetate in detail, so that readers can better understand and apply the raw material.
1. The properties of ethyl difluorobromoacetate
1. Physical properties
ethyl difluorobromoacetate is a colorless and transparent liquid with a pungent odor. It has a high boiling point, usually between 120-122 ℃, and a high density of about 1.56 g/cm. Ethyl difluorobromoacetate is insoluble in water, but can be dissolved in most organic solvents.
2. chemical properties
difluorobromoethyl acetate has active bromine atoms and ester groups, so it is easy to replace, hydrolysis, alcoholysis and other reactions. At the same time, because the molecule contains fluorine atoms, it also shows some special reaction properties. For example, ethyl difluorobromoacetate can react with metallic sodium to produce the corresponding sodium salt, with Grignard reagent to produce the corresponding ketone, etc.
2. difluorobromo ethyl acetate use
1 pharmaceutical intermediates
difluorobromo ethyl acetate is an important pharmaceutical intermediates, can be used for the synthesis of a variety of antibacterial drugs, antiviral drugs and antitumor drugs. For example, it can react with amine compounds to generate the corresponding amide compounds, and then synthesize antibacterial fluoroquinolones.
2. Pesticide intermediate
Ethyl difluorobromoacetate is also a commonly used pesticide intermediate, which can be used to synthesize a variety of pesticides, fungicides and herbicides. For example, it can react with phenol to generate the corresponding ether compounds, and then synthesize fungicides diphenyl ethers.
3. Organic synthesis raw material
as an important organic synthesis raw material, can be used to synthesize a variety of fluorine-containing compounds. For example, it can react with aldehyde compounds to generate the corresponding ketone compounds, and then synthesize fluorine-containing fragrances, solvents, etc.
In conclusion, ethyl difluorobromoacetate, as an important raw material for chemical production, has a wide range of uses and unique properties. Understanding and mastering its properties and uses is of great significance for the better application of the raw material.