Palladium(II)-Catalyzed Decarboxylative Difunctionalization of Alkynoic Acids To Access (E)-β-Sulfonylacrylamides and DFT Study

Combining Trifunctionalization of Alkynoic Acids, Arene ortho C-H Functionalization and Amination: An Approach to Unsymmetrical 2,3-Diaryl Substituted Indoles

Here we report a simultaneous construction of two C-C and two C-N bonds in a unified procedure that incorporates alkynoic acid trifunctionalization, ortho C-H functionalization, and amination cascade. In an ordered process, the regioselective alkyne insertion reaction is favored over the decarboxylation process. The presence of the carboxyl group in alkynoic acid ensures the high regioselectivity in the carbopalladation process, paving the way for a novel method to synthesize unsymmetrically 2,3-diaryl substituted indole scaffolds with excellent regioselectivity. The protocol is demonstrated to be suitable for gram-scale synthesis.

Electrophile-Controlled Regiodivergent Palladium-Catalyzed Imidoylative Spirocyclization of Cyclic Alkenes

An intermolecular controllable Pd-catalyzed spirocyclization of isocyano cycloalkenes has been developed, offering efficient and selective approaches toward spirocyclic hydropyrrole scaffolds. 2-Azaspiro-1,7-dienes could be obtained through a "chain-walking" process with aryl/vinyl iodides as electrophiles, while the normal Heck product 2-azaspiro-1,6-dienes were selectively generated when aryl triflates were used as the coupling partner of isocyanides. Mechanistic studies suggested that the counteranion of the Pd(II) intermediate played a crucial role in the regioselectivity control. Dihydropyrrole-fused 5,6,7-membered spirocycles were switchably accessed under mild conditions with wide functional group tolerance.