Hermann Stetter scite author profile

In the presence of cyanide ions as catalyst, aromatic and heterocyclic aldehydes can be smoothly added to ct,P-unsaturated ketones, esters, and nitriles in aprotic solvents to form y-diketones, 4-0x0 carboxylic esters, and 4-ox0 nitriles. Thiazolium salts in the presence of bases are also suitable catalysts; they permit not only addition of aromatic and heterocyclic aldehydes but also the addition of aliphatic aldehydes.

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The Catalyzed NucleophilicAddition of Aldehydes to Electrophilic Double Bonds

Stetter

Kuhlmann

1991

117

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The cyanide‐ion‐catalyzed dimerization of aromatic and heterocyclic aldehydes to α‐hydroxy ketones, also known as the benzoin condensation, is one of the oldest reactions in organic chemistry. A key intermediate in this reversible reaction is a nitrile‐stabilized carbanion. In 1973 it was shown that these carbanions add irreversibly to α,β‐unsaturated ketones, esters, and nitriles to give 1,4‐diketones, 4‐ketocarboxylic esters, and 4‐ketocarbonitriles, respectively. The reaction succeeds only in aprotic solvents, preferably dimethylformamide. Benzoins and aldehydes can be used interchangeably as starting materials since they are in rapid equilibrium. Cyanide ion catalysis fails with aliphatic aldehydes because they resinify under the strongly basic conditions. Vitamin B 1 (thiamine) has long been known to convert aliphatic aldehydes into acyloins in buffered aqueous solution. The catalytic effect of vitamin B 1 is due to the presence of a thiazolium cation. Thiazolium salts in general as well as other azolium salts also catalyze the formation of acyloins. The optimum conditions for thiazolium salt catalysis have been worked out. It was shown subsequently that thiazolium salts, in combination with bases, also catalyze the addition of aliphatic, aromatic, and heterocyclic aldehydes to α,β‐unsaturated carbonyl compounds. The 1,4‐diketones, 4‐ketocarboxylic esters, and 4‐ketocarbonitriles are usually formed in good to excellent yields. Cyanide ion and thiazolium salt catalysis thus complement each other. This chapter covers the literature of the catalyzed nucleophilic addition of aldehydes to electrophilic double bonds up to 1988. The reaction has been reviewed previously.

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Darstellung und komplexbildung von polyazacycloalkan-N-essigsäuren

1981

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Complex Formation with Tetraazacycloalkane‐N,N′,N″,N‴‐tetraacetic Acids as a Function of Ring Size

Stetter

Frank

1976

Angew. Chem. Int. Ed. Engl.

107

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A New Method for Addition of Aldehydes to Activated Double Bonds

Stetter¹,

Schreckenberg²

1973

Angew. Chem. Int. Ed. Engl.

165

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Compound (6) (0.01 mol, n = 5) is dissolved in I N sodium hydroxide solution (30 ml), a layer of chloroform is placed under the clear solution, and (2), RZ=benzyl, R3=isopropyl(O.02 mol), is added. The mixture is well shaken and neutralized with 2N sulfuric acid. The chloroform layer is separated, dried, and evaporated in a vacuum. The residue is purified over silica gel (Merck, 0.05-0.2 mm; light petroleum/ethyl acetate 10: 1).Working up may be by pouring into water and extraction with chloroform.

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Hermann Stetter

Catalyzed Addition of Aldehydes to Activated Double Bonds—A New Synthetic Approach

The Catalyzed NucleophilicAddition of Aldehydes to Electrophilic Double Bonds

Darstellung und komplexbildung von polyazacycloalkan-N-essigsäuren

Complex Formation with Tetraazacycloalkane‐N,N′,N″,N‴‐tetraacetic Acids as a Function of Ring Size

A New Method for Addition of Aldehydes to Activated Double Bonds

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