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Synthesis of Carbocyclic Compounds via a Nickel-Catalyzed Carboiodination Reaction

Austin D. Marchese, Timur Adrianov, Martin F. Köllen, Bijan Mirabi, Mark Lautens

2021ACS Catalysis39 citationsDOI

Abstract

A scalable nickel-catalyzed carboiodination reaction generating 6-membered carbocycles is reported. NiI2 and P(OEt)3, as the ligand and reducing agent, provided decorated iodo-tetrahydronaphthalenes in up to 94% yield. The impact of varying electronic and steric parameters on the reaction are reported and a non-linear Hammett plot was obtained, supporting a change in the rate-determining step from oxidative addition to reductive elimination. Experimental and DFT studies suggest that the malonate group may stabilize a nickel oxidative-addition complex. A variety of heteroatom-containing nucleophiles and medicinally relevant heterocycles were easily incorporated into the products via simple SN2 chemistry.

Topics & Concepts

SN2 reactionChemistryCatalysisSteric effectsNickelNucleophileReductive eliminationCombinatorial chemistryYield (engineering)HeteroatomLigand (biochemistry)Oxidative additionMalonateOrganic chemistryMedicinal chemistryRing (chemistry)Materials scienceMetallurgyBiochemistryReceptorCatalytic C–H Functionalization MethodsSynthesis and Catalytic ReactionsOxidative Organic Chemistry Reactions
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