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Finkelstein Reaction – Meaning, Reaction, Examples, Mechanism and Uses
Finkelstein Reaction | Organic Chemistry Reactions: The Finkelstein reaction is a substitution reaction between an aryl halide and an amine to form an aryl amine. The reaction is named after its inventor, Isidor Finkelstein.
The Finkelstein Reaction is a chemical reaction that produces a substituted pyrrole. The reaction is typically performed by heating an aryl halide with an amine in the presence of a base. The Finkelstein Reaction is named after its inventor, Saul Finkelstein.
The Finkelstein Reaction is used to produce a variety of substituted pyrroles. The reaction is typically performed by heating an aryl halide with an amine in the presence of a base. The aryl halide is converted into the corresponding aryl amine, while the amine is converted into the corresponding amide. The base is used to protonate the amine, which leads to the formation of the substituted pyrrole. The substituted pyrrole can be used to produce a variety of compounds, including pharmaceuticals and agrochemicals. The reaction is also used to produce precursors for the synthesis of polyamides.
The reaction mechanism is shown below.
- The first step is the nucleophilic attack of the amine on the carbon atom of the aryl halide. This forms a new carbon-nitrogen bond and breaks the carbon-halogen bond. The second step is the elimination of the halogen atom from the aryl ring. This forms the aryl amine.
- The Finkelstein reaction is used to synthesize aryl amines. It is also used to convert aryl halides into aryl amines. The reaction is also used to produce substituted aryl amines.
What is Finkelstein Reaction?
The Finkelstein reaction is a substitution reaction between an aryl halide and an amine. The reaction is named for Samuel Finkelstein, who first reported it in 1933. The reaction proceeds through an S N 2 mechanism, with the amine acting as the nucleophile. The major product of the Finkelstein reaction is the aryl amine, which is formed by the substitution of the halide by the amine.
Examples of Finkelstein Reaction
The Finkelstein reaction is a nucleophilic substitution reaction between an aryl halide and an aryl amine. The reaction proceeds via an S N 2 mechanism, in which the nucleophilic nitrogen attacks the carbon atom bearing the halide. The resulting product is an aryl amine with a substituted nitrogen atom.
Finkelstein Reaction Mechanism
The Finkelstein reaction is a substitution reaction that uses sodium hypochlorite (NaClO) as a reagent. The reaction mechanism involves the formation of a hypochlorite anion (ClO−), which then attacks the carbon atom of the alkyl halide. This produces a chloroalkane and sodium chloride.
Aromatic Finkelstein Reaction
- The aromatic Finkelstein reaction is an organic reaction that couples an aryl halide with an aryl amine. The reaction is a palladium-catalyzed coupling reaction that produces a substituted phenyl ring.
- The Finkelstein reaction is an organic reaction in which an aromatic ring is converted into an aryl halide. The reaction is named for its inventor, Nathan Finkelstein. The reaction proceeds via the formation of a diazonium salt, which is then reduced to the aryl halide.
- The Finkelstein reaction is a versatile tool for the preparation of aryl halides. The reaction can be used to convert a variety of aromatic rings into aryl halides. The reaction is particularly useful for the preparation of benzylic halides, which are difficult to prepare by other methods.
- The Finkelstein reaction is also used in the synthesis of pharmaceuticals. Aryl halides are used as intermediates in the synthesis of a variety of pharmaceuticals. The Finkelstein reaction allows the preparation of aryl halides in a convenient and efficient manner.
Uses of Finkelstein Reaction
The Finkelstein reaction is used to synthesize aldehydes from ketones. The Finkelstein reaction is an organic reaction that produces an aldehyde from an alcohol and an aryl halide in the presence of a base. The reaction is named after its inventor, Saul Finkelstein. The reaction is used to synthesize aldehydes from alcohols and aryl halides. The reaction is often used to synthesize aldehydes that are difficult to synthesize using other methods. The reaction is also used to produce aldehydes that are difficult to produce using other methods. The reaction is also used to produce aldehydes that are difficult to produce using other methods.
