Nicholas Reactions in the Synthesis of Dicobalt Dibenzocyclooctyne Complexes

Catalytic Deprotection of Alkyne Dicobalt Hexacarbonyl Complexes using Near-Infrared Photocatalysis

Dicobalt hexacarbonyl complexes are well-known for their applications in the Nicholas reaction or simply as a protecting group for alkynes. To recover the alkyne, demetalation is necessary, which usually involves a stoichiometric amount of an oxidizing agent or a strong ligand. This article reports a demetalation methodology based on a photocatalytic process. This approach employs a photocatalyst under aerobic conditions, and the optimal results were achieved using mild near-infrared irradiation. A mechanistic investigation is also presented to elucidate how the photocatalytic system promotes this deprotection. This tool is compatible with the one-pot reaction and orthogonal deprotection of alkynes, offering new perspectives for further applications.

The formation of benzoxacin-3-ones via intramolecular Nicholas reactions and synthesis of 8-membered heliannuols

The γ-carbonyl cations generated from propargyl ether-Co₂(CO)₆ complexes undergo intramolecular Nicholas reactions to give dehydrobenzoxacin-3-one-Co₂(CO)₆ complexes in good yields. Reductive decomplexation and subsequent manipulation allows the synthesis of (±)-heliannuol K methyl ether and the formal syntheses of (±)-heliannuol K, (±)-heliannuol A, and (-)-heliannuol L.

Evidence against Single-Electron Transfer in the Additions of Most Organomagnesium Reagents to Carbonyl Compounds

A radical clock system was developed to investigate single-electron transfer (SET) in the reactions of organomagnesium reagents with carbonyl compounds. The fluorenylcyclopropyl radical clock was selected because it is the fastest known radical clock. Additions of Grignard reagents to aldehydes or methyl ketones provided no evidence for ring-opened products that would indicate reaction through SET. Additions of some Grignard reagents to aromatic ketones, however, resulted in the formation of ring-opened products, suggesting SET.

A Tin(IV) Chloride Promoted Tandem C-O Bond Cleavage/Nazarov Cyclization/Nucleophilic Addition Reaction of 1,1-Disubstituted Allylic Ethers toward the Synthesis of Multisubstituted Indenes

A novel SnCl4-promoted tandem reaction toward multisubstituted indenes via a sequential C-O bond cleavage/Nazarov cyclization/nucleophilic addition reaction has been developed to afford a series of multisubstituted indenes with an all-carbon quaternary center in moderate to good yields.

Propargylic cation-induced intermolecular electrophilic addition–semipinacol rearrangement

A novel propargylic electrophile-induced tandem intermolecular addition–semipinacol rearrangement was developed for the synthesis of a series of synthetically useful β-propargyl spirocyclic ketones. Its synthetic application was demonstrated by efficient construction of the key tricyclic moiety of daphlongamine E.

A new route to dithia- and thiaoxacyclooctynes via Nicholas reaction

By using the Nicholas reaction we managed to design a concise synthesis that only uses three steps to build the eight-membered ring. It was also possible to functionalize said alkyne with a fluorophore.