Formal [4 + 1]- and [5 + 1]-Annulation by an SN2–Conjugate Addition Sequence: Stereoselective Synthesis of Highly Substituted Carbocycles

Abnormal Michael Reaction: Condition-Dependent Product Distributions in the Michael Reaction of Monoalkyl-Substituted Malonates

The abnormal Michael reaction reported by Thorpe and Michael in 1900, which involves the transfer of an activating group from a nucleophilic species to an α-carbon of the Michael acceptor in reaction with monosubstituted malonates, was revisited using prototypical substrates for both intramolecular and intermolecular reactions. In both reactions, condition-dependent product distributions were observed. Thus, under the conditions using NaHMDS or NaH in THF or Et2O, no formation of the abnormal Michael product was observed, and the major product was an apparent retrograde Michael reaction in the abnormal Michael product resulting from an elimination of a malonate anion with the migrated acyl group as a part of it. The use of a base capable of generating a proton source such as NaOEt resulted in formation of the abnormal Michael product in the intermolecular reaction, although the retrograde Michael product was still a major product. On the other hand, in the intramolecular reaction, the abnormal product was not detected under any conditions used. A plausible reaction mechanism in which the lower kinetic acidity of the malonate proton compared to the thermodynamic acidity plays a significant role has been proposed.

Palladium-catalyzed alkynylative [5 + 1] carboannulation of 1,3-diarylprop-2-yn-1-yl acetates with terminal alkynes enabled by C–H functionalization

Using 1,3-diarylprop-2-yn-1-yl acetates as the five-carbon components enables alkynylative[5 + 1] carboannulation involving C–H functionalization toward 3-ethynyl-1-methylene-1,2-dihydronaphthalenes.

A heavy-metal-free desulfonylative Giese-type reaction of benzothiazole sulfones under visible-light conditions

A visible-light-induced desulfonylative Giese-type reaction has been developed. Essential to the success is the employment of Hantzsch ester to activate benzothiazole sulfones without any heavy-metal additives. Not only benzylic benzothiazole sulfones but also alkyl ones were viable substrates and reacted with electron-deficient alkenes and a propiol amide.

Substitution-Controlled Selective Formation of Hexahydrobenz[ e]isoindoles and 3-Benzazepines via In(OTf)3-Catalyzed Tandem Annulations

A dramatic N-substituent controlled tandem annulation of 2-(2-(2-bromoethyl)phenyl)-1-sulfonylaziridines with 1,3-dicarbonyl compounds has been developed. When the N-substituent was a 4-methylbenzenesulfonyl group (Ts), sequential ring opening of aziridines, nucleophilic substitution, and lactamization took place to provide a series of hexahydrobenz[ e]isoindole compounds in good yields with good diastereoselectivities. By contrast, 3-benzazepine compounds were afforded in good yields via ring opening of aziridines and nucleophilic substitution when the N-substituent was the 4-nitrobenzenesulfonyl group (Ns).

The reductive decyanation reaction: an overview and recent developments

This review presents an overview of the reductive decyanation reaction with a special interest for recent developments. This transformation allows synthetic chemists to take advantages of the nitrile functional group before its removal. Mechanistic details and applications to organic synthesis are provided.