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DIBAL reduction of carboxylic ester

Fig. 17.61. Mechanism of the DIBAL reduction of carboxylic esters to aldehydes and further... Fig. 17.61. Mechanism of the DIBAL reduction of carboxylic esters to aldehydes and further...
Fig. 14.53. Mechanism of the DIBAL reduction of carboxylic esters to aldehydes and further to alcohols. In nonpolar solvents the reaction stops with the formation of the tetrahedral intermediate A. During aqueous workup, A is converted into the aldehyde via the hemiacetal. In polar solvents, however, the tetrahedral intermediate A quickly decomposes forming the aldehyde via complex B. In the latter situation the aldehyde successfully competes with unreacted ester for the remaining DIBAL. The aldehyde is reduced preferentially, since the aldehyde is the stronger electrophile, and it is converted into the alcohol. Fig. 14.53. Mechanism of the DIBAL reduction of carboxylic esters to aldehydes and further to alcohols. In nonpolar solvents the reaction stops with the formation of the tetrahedral intermediate A. During aqueous workup, A is converted into the aldehyde via the hemiacetal. In polar solvents, however, the tetrahedral intermediate A quickly decomposes forming the aldehyde via complex B. In the latter situation the aldehyde successfully competes with unreacted ester for the remaining DIBAL. The aldehyde is reduced preferentially, since the aldehyde is the stronger electrophile, and it is converted into the alcohol.
See other pages where DIBAL reduction of carboxylic ester is mentioned: [Pg.796]    [Pg.591]   


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