Abstract
Given the wide availability and low cost of alkylbenzenes, direct C-H functionalization of these aromatic hydrocarbons to afford structurally complex building blocks has long been of interest in organic synthesis. Herein we describe a method for rhodium-catalyzed dehydrogenative (3 + 2) cycloaddition reactions of alkylbenzenes with 1,1-bis(phenylsulfonyl)ethylene. The π-coordination with a rhodium catalyst facilitates the benzylic deprotonation, allowing for the subsequent (3 + 2) cycloaddition in which the metal-complexed carbanion serves as a unique all-carbon 1,3-dipole equivalent. We demonstrated the generality of this catalytic method by carrying out reactions of a large array of alkylbenzenes to generate dihydroindene derivatives bearing two synthetically versatile sulfonyl groups. Quantum-chemical calculations revealed details of the reaction process.
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