Nozaki–Hiyama–Kishi reaction


The Nozaki–Hiyama–Kishi reaction is a nickel/chromium coupling reaction forming an alcohol from the reaction of an aldehyde with an allyl or vinyl halide. In their original 1977 publication, Tamejiro Hiyama and Hitoshi Nozaki reported on a chromium salt solution prepared by reduction of chromic chloride by lithium aluminium hydride to which was added benzaldehyde and allyl chloride:
Compared to Grignard reactions, this reaction is very selective towards aldehydes with large tolerance towards a range of functional groups such as ketones, esters, amides and nitriles. Enals give exclusively 1,2-addition. Solvents of choice are DMF and DMSO, one solvent requirement is solubility of the chromium salts. Nozaki-Hiyama-Kishi reaction is a useful method for preparing medium-size rings.
In 1983 the scope was extended by the same authors to include vinyl halides or triflates and aryl halides. It was observed that the success of the reaction depended on the source of chromium chloride and in 1986 it was found that this is due to nickel impurities. Since then nickel chloride is used as a co-catalyst.
In the same year Yoshito Kishi et al. independently discovered the beneficial effects of nickel in his quest for palytoxin:
Palladium acetate was also found to be an effective cocatalyst.

Reaction mechanism

Nickel is the actual catalyst when small amounts of a nickel salt are added to the reaction. Nickel chloride is first reduced to nickel with 2 equivalents of chromium chloride leaving chromium chloride. The next step is oxidative addition of nickel into the carbon to halide bond forming an alkenylnickel R–Ni–X intermediate followed by a transmetallation step exchanging NiX with a Cr group to an alkenylchromium R–Cr–X intermediate and regenerating Ni. This species reacts with the carbonyl group in a nucleophilic addition.
The amount of nickel used should be low as a direct alkene coupling to a diene is a side reaction.
Related reactions are the Grignard reaction, the Barbier reaction and addition reactions involving organolithium reagents.